// 重构思想 public static void AyalyzingPreLookAheadForRefactorDFS(String messageName) { if (messageName == null) { System.out.println("No input message to drive the automachine!"); return; } LinkedList<Mission> errorSequenceList2 = new LinkedList<Mission>(); if (kSteps > 0) { System.out.println(); System.out.println( "Look ahead " + kSteps + " steps with message: " + messageMap.get(messageName) + "\nwhich is mapped into " + messageName + "billy refactor"); System.out.println(); } currentTime1 = System.nanoTime(); if (tmpFoundList.size() != 0) { foundList = (ArrayList<MissionForRefactor>) tmpFoundList.clone(); tmpFoundList.clear(); } System.out.println("\n Possible right message sequences(billy refactor):\n"); for (int i = 0; i < timedAutomataStateList.size(); i++) { // 从每个自动机的起始状态开始找 ArrayList<String> placeArray; MissionForRefactor mfr; for (int index = 0; index < foundList.size(); index++) { mfr = foundList.get(index); if (!mfr.getFirstMessageName().equals(messageName)) continue; // 给定的消息在原来查找到的序列里不合适,结束本次循环 placeArray = mfr.getPlaceArray(); String tmpMessageSequence = mfr.getMessageSequenceWithoutFirstMessageName(); boolean isFind = false; List<State> timedAutomataState = timedAutomataStateList.get(i); // String stateName = timedAutomataState.get(0).getStateName(); String stateName = placeArray.get(i); // System.out.println("11 " + stateName); for (int j = 0; j < timedAutomataState.size(); j++) { // 根据起始状态的名字查找timedAutomataState State currentState = timedAutomataState.get(j); // System.out.println("22 "); if (currentState.getStateName().equals(stateName)) { // 找到了对应名字的state List<String> innerList = currentState.getInnerMessageList(); // System.out.println("33 " + innerList.size()); for (int k = 0; k < innerList.size(); k++) { // 内部消息都是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); tmpPlaceArray.set(i, currentState.getEndStateName(innerList.get(k))); // StringBuffer buffer=new StringBuffer(innerList.get(k)); // // synchronizedMoveInFindingMessageSeq(buffer,1,innerList.get(k),INNER_MESSAGE,tmpPlaceArray,i); // printPlaceArray(tmpPlaceArray); // queue.add(new Mission(innerList.get(k), (ArrayList<String>) // tmpPlaceArray.clone(), 1)); if (tmpMessageSequence.equals("")) tmpFoundList.add(new MissionForRefactor(innerList.get(k), tmpPlaceArray)); else tmpFoundList.add( new MissionForRefactor( tmpMessageSequence + " , " + innerList.get(k), tmpPlaceArray)); System.out.println("*** " + tmpMessageSequence + " , " + innerList.get(k) + " ***"); isFind = true; } List<String> sendList = currentState.getSendMessageList(); // List<String> // receiveList=currentState.getReceiveMessageList(); // System.out.println("44 " + sendList.size()); for (int k = 0; k < sendList.size(); k++) { // 发送必须和接收配对,才是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); int temp = AnalyzeMessageSequence.findInAllAuto(sendList.get(k), tmpPlaceArray); if (temp != -1) { tmpPlaceArray.set(i, currentState.getEndStateName(sendList.get(k))); // printPlaceArray(tmpPlaceArray); // queue.add(new Mission(sendList.get(k), // (ArrayList<String>) tmpPlaceArray.clone(), // 1)); if (tmpMessageSequence.equals("")) tmpFoundList.add(new MissionForRefactor(sendList.get(k), tmpPlaceArray)); else tmpFoundList.add( new MissionForRefactor( tmpMessageSequence + " , " + sendList.get(k), tmpPlaceArray)); System.out.println("*** " + tmpMessageSequence + " , " + sendList.get(k) + " ***"); isFind = true; } } // System.out.println("55 " + queue.size()); break; // 找到了第一个起始状态的描述,不再进行内循环 } } if (!isFind) { boolean isMissionExist = false; for (Mission mission : errorSequenceList2) { // 判断一下errorSequenceList中原来是不是已经加了这个任务 if (mission.getPreviousMessage().equals(mfr.getMessageSequence())) { isMissionExist = true; break; } } if (!isMissionExist) errorSequenceList2.add( new Mission( mfr.getMessageSequence(), mfr.getPlaceArray(), kSteps)); // 如果mission没有下文了,则存入错误组合链表,供最后集中打印 } } } // 再次判断是否错误组合中有正确组合的部分,否则去掉 for (MissionForRefactor mr : foundList) { for (int i = 0; i < errorSequenceList2.size(); i++) { Mission mission = errorSequenceList2.get(i); if (mr.getMessageSequence().contains(mission.getPreviousMessage())) errorSequenceList2.remove(mission); } } System.out.println("\n Possible error message sequences:\n"); for (int index = 0; index < errorSequenceList2.size(); index++) { MissionForRefactor mfr = errorSequenceList2.get(index).toReconstrcut(); if (!mfr.getFirstMessageName().equals(messageName)) continue; // 给定的消息在原来查找到的序列里不合适,结束本次循环 ArrayList<String> placeArray = mfr.getPlaceArray(); String tmpMessageSequence = mfr.getMessageSequenceWithoutFirstMessageName(); System.out.print("Warning: " + tmpMessageSequence + "\t"); System.out.print("( "); for (int k = 0; k < placeArray.size(); k++) { System.out.print( placeArray.get(k) + "(" + IImageKeys.automataFilesName .get(k) .substring( IImageKeys.automataFilesName.get(k).indexOf('/') + 1, IImageKeys.automataFilesName.get(k).lastIndexOf('.')) + ") "); } System.out.println(")"); } boolean isFind = true; while (isFind) { isFind = false; for (int i = 0; i < errorSequenceList.size(); i++) { Mission mission = errorSequenceList.get(i); if (!mission.getFirstMessageName().equals(messageName)) { continue; } isFind = true; System.out.println( "Warning: " + mission.getMessageSequenceWithoutFirstMessageName() + "\t"); mission.setPreviousMessage(mission.getMessageSequenceWithoutFirstMessageName()); ArrayList<String> placeArray = mission.getPlaceList(); System.out.print("( "); for (int k = 0; k < placeArray.size(); k++) { System.out.print( placeArray.get(k) + "(" + IImageKeys.automataFilesName .get(k) .substring( IImageKeys.automataFilesName.get(k).indexOf('/') + 1, IImageKeys.automataFilesName.get(k).lastIndexOf('.')) + ") "); } System.out.println(")"); } } long current2 = System.nanoTime(); timeList.add((current2 - currentTime1) / 1000); System.out.println( "\n The execution time of analysis with reconstruct is: " + (current2 - currentTime1) / 1000 + " us"); System.out.println( "*****************************************************************************"); }
private static void AyalyzingPreLookAheadWithMultiAutomataDFS() { if (queue.isEmpty()) { for (int i = 0; i < timedAutomataStateList.size(); i++) { // 从每个自动机的起始状态开始找(billy:这边的size 表示有几个自动机) ArrayList<String> placeArray = new ArrayList<String>(timedAutomataStateList.size()); AnalyzeMessageSequence.initPlaceArray(placeArray); List<State> timedAutomataState = timedAutomataStateList.get(i); // billy:得到第i个自动机 里面的所有状态 String stateName = placeArray.get(i); // billy:第i个自动机的 名字 for (int j = 0; j < timedAutomataState.size(); j++) { // 根据起始状态的名字查找timedAutomataState (billy:指第i个自动机的每个状态) State currentState = timedAutomataState.get(j); if (currentState.getStateName().equals(stateName)) { // 找到了对应名字的state List<String> innerList = currentState.getInnerMessageList(); for (int k = 0; k < innerList.size(); k++) { // 内部消息都是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); tmpPlaceArray.set( i, currentState.getEndStateName( innerList.get(k))); // billy:把内部消息对应的状态 staname放入到tmp queue.add( new Mission(innerList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), 1)); } // System.out.println("queue whether empty"); List<String> sendList = currentState.getSendMessageList(); for (int k = 0; k < sendList.size(); k++) { // 发送必须和接收配对,才是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); int temp = AnalyzeMessageSequence.findInAllAuto(sendList.get(k), tmpPlaceArray); if (temp != -1) { tmpPlaceArray.set(i, currentState.getEndStateName(sendList.get(k))); // printPlaceArray(tmpPlaceArray); queue.add( new Mission(sendList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), 1)); } } // System.out.println("55 " + queue.size()); break; // 找到了第一个起始状态的描述,不再进行内循环 } } } } System.out.println("\n Possible right message sequences:\n"); while (!queue.isEmpty()) { Mission m = queue.poll(); // 从队列取出,删 if (m.getSteps() < kSteps) { Stack.push(m); while (!Stack.isEmpty()) { Mission sm = Stack.pop(); String buffer = sm.getPreviousMessage(); ArrayList<String> placeArray = (ArrayList<String>) sm.getPlaceList().clone(); boolean isFind = false; for (int i = 0; i < timedAutomataStateList.size(); i++) { List<State> timedAutomataState = timedAutomataStateList.get(i); for (int j = 0; j < timedAutomataState.size(); j++) { // 根据下一状态的名字查找timedAutomataState State currentState = timedAutomataState.get(j); // System.out.println("88 "+currentState.getStateName()); // AnalyzeMessageSequence.printPlaceArray(placeArray); if (currentState.getStateName().equals(placeArray.get(i))) { // 在自动机i中找到了对应名字的state List<String> innerList = currentState.getInnerMessageList(); // System.out.println("99 " + innerList.size()); for (int k = 0; k < innerList.size(); k++) { // 内部消息都是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); tmpPlaceArray.set(i, currentState.getEndStateName(innerList.get(k))); // printPlaceArray(tmpPlaceArray); if (sm.getSteps() + 1 == kSteps) { kqueue.add( new Mission( buffer + " , " + innerList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), sm.getSteps() + 1)); Mission km = kqueue.poll(); foundList.add( new MissionForRefactor(km.getPreviousMessage(), km.getPlaceList())); System.out.println("---" + km.getPreviousMessage() + "---"); isFind = true; } else { // tmpPlaceArray.add("visited"); Stack.push( new Mission( buffer + " , " + innerList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), sm.getSteps() + 1)); isFind = true; } } List<String> sendList = currentState.getSendMessageList(); // for (int k = 0; k < sendList.size(); k++) { // 发送必须和接收配对,才是可能的 ArrayList<String> tmpPlaceArray = (ArrayList<String>) placeArray.clone(); if (AnalyzeMessageSequence.findInAllAuto(sendList.get(k), tmpPlaceArray) != -1) { tmpPlaceArray.set(i, currentState.getEndStateName(sendList.get(k))); if (sm.getSteps() + 1 == kSteps) { kqueue.add( new Mission( buffer + " , " + sendList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), sm.getSteps() + 1)); Mission km = kqueue.poll(); foundList.add( new MissionForRefactor(km.getPreviousMessage(), km.getPlaceList())); System.out.println("---" + km.getPreviousMessage() + "---"); isFind = true; } else { Stack.push( new Mission( buffer + " , " + sendList.get(k), (ArrayList<String>) tmpPlaceArray.clone(), sm.getSteps() + 1)); isFind = true; } } } } // end current if } } // end out for //end inner for if (!isFind) { // boolean isMissionExist = false; for (Mission mission : errorSequenceList) { // 判断一下errorSequenceList中原来是不是已经加了这个任务 if (mission.getPreviousMessage().equals(sm.getPreviousMessage())) { isMissionExist = true; break; } } if ((!isMissionExist) // &&(!isMissionLeave)&&(!flag) ) errorSequenceList.add(sm); // 如果mission没有下文了,则存入错误组合链表,供最后集中打印 // for(int j=0;j<errorSequenceList.size();j++){ // Mission mission=errorSequenceList.get(j); // System.out.println("errorsequecne"+mission.getPreviousMessage());} } } // end empty } // end if k else { System.out.println("---" + m.getPreviousMessage() + "---(billy)"); } } // end queue for (MissionForRefactor mr : foundList) { for (int i = 0; i < errorSequenceList.size(); i++) { Mission mission = errorSequenceList.get(i); if (mr.getMessageSequence().contains(mission.getPreviousMessage())) errorSequenceList.remove(mission); // 首次出现的mission } } // 打印所有错误的组合 System.out.println("\n Possible error message sequences(billy):\n"); for (int i = 0; i < errorSequenceList.size(); i++) { Mission m = errorSequenceList.get(i); System.out.print("Warning: " + m.getPreviousMessage() + "\t"); ArrayList<String> list = m.getPlaceList(); System.out.print("( "); for (int k = 0; k < list.size(); k++) { System.out.print( list.get(k) + "(" + IImageKeys.automataFilesName .get(k) .substring( IImageKeys.automataFilesName.get(k).indexOf('/') + 1, IImageKeys.automataFilesName.get(k).lastIndexOf('t')) + ") "); } System.out.println(")"); } if (kSteps > 0) { // System.out.println("Look ahead " + kSteps + " steps " + // (withControllability!=0?"with":"without") + // " controllability by " + // (isDepthSearchFirst!=0?"breadth search first.":"depth search first.")); long current2 = System.nanoTime(); timeList.add((current2 - currentTime1) / 1000); System.out.println( "\nThe execution time of initial Lookahead is: " + (current2 - currentTime1) / 1000 + " us"); } else { System.out.println( "The execution time of analysis without Pre-Lookahead is: " + (System.nanoTime() - currentTime1) / 1000 + " us"); } System.out.println( "--------------深度---------------多自动机主动监控-------------------------------------------"); } // end ayalyzingpre dfs