/* private void deleteExitToException(){ Iterator it = iterator(); while (it.hasNext()){ JPegStmt stmt = (JPegStmt)it.next(); Unit unit = stmt.getUnit(); UnitGraph unitGraph = stmt.getUnitGraph(); if (unit instanceof ExitMonitorStmt){ Iterator succIt = unitGraph.getSuccsOf(unit).iterator(); while(succIt.next && exceHandlers.contains(un) ){ System.out.println("====find it! unit: "+unit+"\n un: "+un); continue; } } } */ private void buildPredecessor(Chain pegChain) { // System.out.println("==building predcessor==="); // initialize the pred sets to empty { JPegStmt s = null; Iterator unitIt = pegChain.iterator(); while (unitIt.hasNext()) { s = (JPegStmt) unitIt.next(); unitToPreds.put(s, new ArrayList()); } } // System.out.println("==finish init of unitToPred==="); { Iterator unitIt = pegChain.iterator(); while (unitIt.hasNext()) { Object s = unitIt.next(); // System.out.println("s is: "+s); // Modify preds set for each successor for this statement if (unitToSuccs.containsKey(s)) { List succList = unitToSuccs.get(s); Iterator succIt = succList.iterator(); // System.out.println("unitToSuccs contains "+s); // System.out.println("succList is: "+succList); while (succIt.hasNext()) { // Object successor = succIt.next(); JPegStmt successor = (JPegStmt) succIt.next(); // System.out.println("successor is: "+successor); List<Object> predList = unitToPreds.get(successor); // System.out.println("predList is: "+predList); if (predList != null && !predList.contains(s)) { try { predList.add(s); /* Tag tag1 = (Tag)((JPegStmt)s).getTags().get(0); System.out.println("add "+tag1+" "+s+" to predListof"); Tag tag2 = (Tag)((JPegStmt)successor).getTags().get(0); System.out.println(tag2+" "+successor); */ } catch (NullPointerException e) { System.out.println(s + "successor: " + successor); throw e; } // if (((JPegStmt)successor).getName().equals("start")){ if (successor instanceof StartStmt) { List runMethodChainList = startToThread.get(successor); if (runMethodChainList == null) { throw new RuntimeException("null runmehtodchain: \n" + successor.getUnit()); } Iterator possibleMethodIt = runMethodChainList.iterator(); while (possibleMethodIt.hasNext()) { Chain subChain = (Chain) possibleMethodIt.next(); buildPredecessor(subChain); } } } else { System.err.println("predlist of " + s + " is null"); // System.exit(1); } // unitToPreds.put(successor, predList); } } else { System.err.println("unitToSuccs does not contains key" + s); System.exit(1); } } } }
private void buildSuccessor(Chain pegChain) { // Add regular successors { HashMap unitToPeg = (HashMap) unitToPegMap.get(pegChain); Iterator pegIt = pegChain.iterator(); JPegStmt currentNode, nextNode; currentNode = pegIt.hasNext() ? (JPegStmt) pegIt.next() : null; // June 19 add for begin node if (currentNode != null) { // System.out.println("currentNode: "+currentNode); // if the unit is "begin" node nextNode = pegIt.hasNext() ? (JPegStmt) pegIt.next() : null; if (currentNode.getName().equals("begin")) { List<JPegStmt> successors = new ArrayList<JPegStmt>(); successors.add(nextNode); unitToSuccs.put(currentNode, successors); currentNode = nextNode; } // end June 19 add for begin node while (currentNode != null) { // System.out.println("currentNode: "+currentNode); /* If unitToSuccs contains currentNode, it is the point to inline methods, * we need not compute its successors again */ if (unitToSuccs.containsKey(currentNode) && !currentNode.getName().equals("wait")) { currentNode = pegIt.hasNext() ? (JPegStmt) pegIt.next() : null; continue; } List<JPegStmt> successors = new ArrayList<JPegStmt>(); Unit unit = currentNode.getUnit(); UnitGraph unitGraph = currentNode.getUnitGraph(); List unitSucc = unitGraph.getSuccsOf(unit); Iterator succIt = unitSucc.iterator(); while (succIt.hasNext()) { Unit un = (Unit) succIt.next(); // Don't build the edge from "monitor exit" to exception handler if (unit instanceof ExitMonitorStmt && exceHandlers.contains(un)) { // System.out.println("====find it! unit: "+unit+"\n un: "+un); continue; } else if (unitToPeg.containsKey(un)) { JPegStmt pp = (JPegStmt) (unitToPeg.get(un)); if (pp != null && !successors.contains(pp)) successors.add(pp); } } // end while if (currentNode.getName().equals("wait")) { while (!(currentNode.getName().equals("notified-entry"))) { currentNode = pegIt.hasNext() ? (JPegStmt) pegIt.next() : null; } unitToSuccs.put(currentNode, successors); // System.out.println("put key: "+currentNode+" into unitToSucc"); } else { unitToSuccs.put(currentNode, successors); } if (currentNode.getName().equals("start")) { // System.out.println("-----build succ for start----"); if (startToThread.containsKey(currentNode)) { List runMethodChainList = startToThread.get(currentNode); Iterator possibleMethodIt = runMethodChainList.iterator(); while (possibleMethodIt.hasNext()) { Chain subChain = (Chain) possibleMethodIt.next(); if (subChain != null) { // System.out.println("build succ for subChain"); // buildSuccessor(subGraph, subChain, addExceptionEdges); buildSuccessor(subChain); } else System.out.println("*********subgraph is null!!!"); } } } currentNode = pegIt.hasNext() ? (JPegStmt) pegIt.next() : null; } // while // June 19 add for begin node } // end June 19 add for begin node } }