private void printGraph(EFG graph) { StringBuffer buff = new StringBuffer(); List<EventType> eventList = graph.getEvents().getEvent(); List<RowType> lRow = graph.getEventGraph().getRow(); for (int row = 0; row < lRow.size(); row++) { List<Integer> rowVals = lRow.get(row).getE(); for (int col = 0; col < rowVals.size(); col++) { int cell = rowVals.get(col); if (cell > 0) { EventType firstEvent = eventList.get((row)); EventType secondEvent = eventList.get(col); buff.append( "\t" + "\"" + firstEvent.getEventId() + "\"" + "->" + "\"" + secondEvent.getEventId() + "\""); buff.append("\t/*" + cell + "*/"); buff.append("\n"); } } } System.out.println(buff); }
private void printGraph() { // GUITARLog.log.info("Graph"); List<EventType> eventList = efg.getEvents().getEvent(); int eventGraphSize = eventList.size(); EventGraphType eventGraph = efg.getEventGraph(); for (int row = 0; row < eventGraphSize; row++) { EventType currentEvent = eventList.get(row); Vector<EventType> s = new Vector<EventType>(); for (int col = 0; col < eventGraphSize; col++) { EventType event = eventList.get(col); int relation = eventGraph.getRow().get(row).getE().get(col); if (relation == GUITARConstants.FOLLOW_EDGE) { GUITARLog.log.info( currentEvent.getEventId() + "," + currentEvent.getWidgetId() + "->" + event.getEventId() + "," + event.getWidgetId()); } } GUITARLog.log.info(""); } }
/** Get follow relations in the input graph */ private void parseFollowRelations() { if (inputGraph == null) return; List<EventType> eventList = inputGraph.getEvents().getEvent(); int eventGraphSize = eventList.size(); EventGraphType eventGraph = inputGraph.getEventGraph(); succs = new Hashtable<EventType, Vector<EventType>>(); preds = new Hashtable<EventType, Vector<EventType>>(); for (int row = 0; row < eventGraphSize; row++) { EventType currentEvent = eventList.get(row); // String currentEventType = currentEvent.getType(); Vector<EventType> s = new Vector<EventType>(); for (int col = 0; col < eventGraphSize; col++) { // EventType other = eventList.get(col); // String eventType = other .getType(); int relation = eventGraph.getRow().get(row).getE().get(col); // int relation = eventGraph.getRow().get(col).getE().get(row); // Other is followed by current event: current -> other if (relation != GUITARConstants.NO_EDGE) { EventType otherEvent = eventList.get(col); s.add(otherEvent); if (relation == GUITARConstants.REACHING_EDGE && !otherEvent.getEventId().equals(currentEvent.getEventId())) { // Create preds list Vector<EventType> p = preds.get(otherEvent); if (p == null) { p = new Vector<EventType>(); } p.add(currentEvent); preds.put(otherEvent, p); } } succs.put(currentEvent, s); } } }
/** * Find path to root * * @param event * @return */ private LinkedList<EventType> pathToRoot(EventType event) { if (initialEvents.contains(event)) { LinkedList<EventType> path = new LinkedList<EventType>(); path.add(event); return path; } else { Vector<EventType> predEventList = preds.get(event); if (predEventList == null) return null; else if (predEventList.size() == 0) { System.out.println(event.getEventId() + " has empty predEventList"); return null; } else { for (EventType pred : predEventList) { // System.out.println("------------------------"); // System.out.println("EventID: "+pred.getEventId()); // System.out.println("PredID: "+pred.getEventId()); // LinkedList<EventType> predPathToRoot = pathToRoot(pred); if (predPathToRoot == null) { continue; } else if (!predPathToRoot.contains(event)) { predPathToRoot.add(event); return predPathToRoot; } } return null; } } }
/** Just for debug */ private void debug() { GUITARLog.log.info("Debugging........."); List<EventType> eventList = efg.getEvents().getEvent(); for (EventType e : eventList) { GUITARLog.log.info("================================"); GUITARLog.log.info("Analyzing " + e.getEventId() + "-" + e.getWidgetId()); List<EventType> predEventList = preds.get(e); String sEventList = "Pred: ["; for (EventType predEvent : predEventList) { sEventList += (predEvent.getEventId() + "-" + predEvent.getWidgetId() + ", "); } sEventList += "]"; GUITARLog.log.info(sEventList); } GUITARLog.log.info("Done Debugging........."); }
/** * Execute a single step in the test case * * <p> * * @param step * @throws ComponentNotFound */ private void executeStep(StepType step) throws ComponentNotFound { TestStepStartEventArgs stepStartArgs = new TestStepStartEventArgs(step); // ----------------------- // Monitor before step for (GTestMonitor aTestMonitor : lTestMonitor) { aTestMonitor.beforeStep(stepStartArgs); } // Events String sEventID = step.getEventId(); GUITARLog.log.info("EventID: " + sEventID); // Get widget ID and actions // String sWidgetID = getWidgetID("WidgetId", sEventID); String sWidgetID = null; String sAction = null; List<EventType> lEvents = efg.getEvents().getEvent(); for (EventType event : lEvents) { String eventID = event.getEventId(); if (sEventID.equals(eventID)) { sWidgetID = event.getWidgetId(); sAction = event.getAction(); } } if (sWidgetID == null) { GUITARLog.log.error("Component ID not found"); throw new ComponentNotFound(); } else if (sAction == null) { GUITARLog.log.error("Action not found"); throw new ComponentNotFound(); } String sWindowID = getWindowName(sWidgetID); if (sWindowID == null) { GUITARLog.log.error("Window Title not found"); throw new ComponentNotFound(); } GUITARLog.log.info("Window Title: *" + sWindowID + "*"); GUITARLog.log.info("Widget ID: *" + sWidgetID + "*"); GUITARLog.log.info(""); GUITARLog.log.info("Finding window *" + sWindowID + "*...."); // TODO: Change this method to a fuzzy matching GWindow gWindow = monitor.getWindow(sWindowID); GUITARLog.log.info("FOUND"); GUITARLog.log.info(""); ComponentTypeWrapper comp = guiStructureAdapter.getComponentFromID(sWidgetID); if (comp == null) throw new ComponentNotFound(); List<PropertyType> ID = monitor.selectIDProperties(comp.getDComponentType()); List<PropertyTypeWrapper> IDAdapter = new ArrayList<PropertyTypeWrapper>(); for (PropertyType p : ID) IDAdapter.add(new PropertyTypeWrapper(p)); GComponent containter = gWindow.getContainer(); GUITARLog.log.info("Finding widget *" + sWidgetID + "*...."); // GUITARLog.log.debug("Componnent signature: "); // for (PropertyTypeWrapper p : IDAdapter) { // GUITARLog.log.debug(p.toString()); // } GComponent gComponent = containter.getFirstChild(IDAdapter); if (gComponent == null) throw new ComponentNotFound(); GUITARLog.log.info("FOUND"); GUITARLog.log.info("Widget Title: *" + gComponent.getTitle() + "*"); GUITARLog.log.info(""); if (!gComponent.isEnable()) throw new ComponentDisabled(); // Actions GEvent gEvent = monitor.getAction(sAction); List<String> parameters = step.getParameter(); GUITARLog.log.info("Action: *" + sAction); GUITARLog.log.info(""); // Optional data AttributesType optional = comp.getDComponentType().getOptional(); Hashtable<String, List<String>> optionalValues = null; if (optional != null) { optionalValues = new Hashtable<String, List<String>>(); for (PropertyType property : optional.getProperty()) { optionalValues.put(property.getName(), property.getValue()); } } if (parameters == null) gEvent.perform(gComponent, optionalValues); else if (parameters.size() == 0) { gEvent.perform(gComponent, optionalValues); } else gEvent.perform(gComponent, parameters, optionalValues); // ----------------------- // Monitor after step if (!lTestMonitor.isEmpty()) { try { TestStepEndEventArgs stepEndArgs = new TestStepEndEventArgs( step, gComponent.extractProperties(), gWindow.extractGUIProperties()); for (GTestMonitor aTestMonitor : lTestMonitor) { aTestMonitor.afterStep(stepEndArgs); } } catch (Exception e) { log.error("Failed to collect post-event state", e); } } }
/* * (non-Javadoc) * * @see * edu.umd.cs.guitar.graph.plugin.G2GPlugin#parseGraph(edu.umd.cs.guitar * .model.data.EFG) */ @Override public boolean parseGraph() { // initialize parseFollowRelations(); parseInitialEvents(); outputGraph = factory.createEFG(); map = factory.createMapping(); EventsType eventList = factory.createEventsType(); EventGraphType eventGraph = factory.createEventGraphType(); // select interaction events List<EventType> lEventList = getEventList(); // set initial events InitialMappingListType lInitialMappingList = factory.createInitialMappingListType(); for (EventType event : lEventList) { LinkedList<EventType> pathToRoot = pathToRoot(event); if (pathToRoot != null) { pathToRoot.removeLast(); if (pathToRoot.size() > 0) { event.setInitial(true); InitialMappingType initialMapping = factory.createInitialMappingType(); initialMapping.setEventId(event.getEventId()); PathType mappingPathToRoot = factory.createPathType(); for (EventType eventToRoot : pathToRoot) mappingPathToRoot.getEventId().add(eventToRoot.getEventId()); initialMapping.setPath(mappingPathToRoot); lInitialMappingList.getIntialMapping().add(initialMapping); } } } map.setInitialMappingList(lInitialMappingList); eventList.setEvent(lEventList); outputGraph.setEvents(eventList); // mapping edge EdgeMappingListType edgeMappingList = factory.createEdgeMappingListType(); // build edge List<RowType> lRowList = new ArrayList<RowType>(); for (EventType firstEvent : lEventList) { int indexFirst = lEventList.indexOf(firstEvent); // System.out.println("Anlyzing row: " + indexFirst); RowType row = factory.createRowType(); for (EventType secondEvent : lEventList) { int indexSecond = lEventList.indexOf(secondEvent); List<EventType> path = getInteractionFreePath(firstEvent, secondEvent); int cellValue; if (path != null) { cellValue = 1; if (path.size() > 0) { EdgeMappingType edgeMapping = factory.createEdgeMappingType(); edgeMapping.setSourceId(firstEvent.getEventId()); edgeMapping.setTargetId(secondEvent.getEventId()); PathType eventPath = factory.createPathType(); for (EventType event : path) eventPath.getEventId().add(event.getEventId()); edgeMapping.setPath(eventPath); edgeMappingList.getEdgeMapping().add(edgeMapping); } } else { cellValue = 0; } row.getE().add(indexSecond, cellValue); } lRowList.add(indexFirst, row); } eventGraph.setRow(lRowList); outputGraph.setEventGraph(eventGraph); map.setEdgeMappingList(edgeMappingList); // debug System.out.println("==========================="); System.out.println("OUTPUT GRAPH"); printGraph(outputGraph); return true; }