public Set possibleTypes() { if (subsets == null) { return Collections.EMPTY_SET; } HashSet ret = new HashSet(); for (Iterator subsetIt = subsets.iterator(); subsetIt.hasNext(); ) { final PointsToSet subset = (PointsToSet) subsetIt.next(); ret.addAll(subset.possibleTypes()); } return ret; }
public boolean addAll(PointsToSet s) { boolean ret = false; if (subsets == null) subsets = new HashSet(); if (s instanceof Union) { MemoryEfficientRasUnion meru = (MemoryEfficientRasUnion) s; if (meru.subsets == null || subsets.containsAll(meru.subsets)) { return false; } return subsets.addAll(meru.subsets); } else { PointsToSet r = (PointsToSet) s; return subsets.add(s); } }
public boolean isEmpty() { if (subsets == null) return true; for (Iterator subsetIt = subsets.iterator(); subsetIt.hasNext(); ) { final PointsToSet subset = (PointsToSet) subsetIt.next(); if (!subset.isEmpty()) return false; } return true; }
public boolean hasNonEmptyIntersection(PointsToSet other) { if (subsets == null) return true; for (Iterator subsetIt = subsets.iterator(); subsetIt.hasNext(); ) { final PointsToSet subset = (PointsToSet) subsetIt.next(); if (other instanceof Union) { if (other.hasNonEmptyIntersection(subset)) return true; } else { if (subset.hasNonEmptyIntersection(other)) return true; } } return false; }
private void visitNode( Set<Object> gray, Object obj, LinkedList<Object> changedUnits, HashSet<Object> changedUnitsSet) { gray.add(obj); changedUnits.addLast(obj); changedUnitsSet.add(obj); nodes.add(obj); valueBefore.add(newInitialFlow()); valueAfter.add(newInitialFlow()); Iterator succsIt = graph.getSuccsOf(obj).iterator(); if (g.getSuccsOf(obj).size() > 0) { while (succsIt.hasNext()) { Object succ = succsIt.next(); if (!gray.contains(succ)) { visitNode(gray, succ, changedUnits, changedUnitsSet); } } } }
protected void doAnalysis() { LinkedList<Object> changedUnits = new LinkedList<Object>(); HashSet<Object> changedUnitsSet = new HashSet<Object>(); int numNodes = graph.size(); int numComputations = 0; // Set initial values and nodes to visit. createWorkList(changedUnits, changedUnitsSet); // testWorkList(changedUnits); // Set initial values for entry points { Iterator it = graph.getHeads().iterator(); while (it.hasNext()) { Object s = it.next(); // unitToBeforeFlow.put(s, entryInitialFlow()); nodes.add(s); valueBefore.add(entryInitialFlow()); } } // Perform fixed point flow analysis { Object previousAfterFlow = newInitialFlow(); while (!changedUnits.isEmpty()) { Object beforeFlow; Object afterFlow; Object s = changedUnits.removeFirst(); Tag tag = (Tag) ((JPegStmt) s).getTags().get(0); // System.out.println("===unit is: "+tag+" "+s); changedUnitsSet.remove(s); // copy(unitToAfterFlow.get(s), previousAfterFlow); // add for debug april 6 int pos = nodes.indexOf(s); copy(valueAfter.elementAt(pos), previousAfterFlow); // end add for debug april // Compute and store beforeFlow { List preds = graph.getPredsOf(s); // beforeFlow = unitToBeforeFlow.get(s); beforeFlow = valueBefore.elementAt(pos); if (preds.size() == 1) { // copy(unitToAfterFlow.get(preds.get(0)), beforeFlow); copy(valueAfter.elementAt(nodes.indexOf(preds.get(0))), beforeFlow); } else if (preds.size() != 0) { Iterator predIt = preds.iterator(); Object obj = predIt.next(); // copy(unitToAfterFlow.get(obj), beforeFlow); copy(valueAfter.elementAt(nodes.indexOf(obj)), beforeFlow); while (predIt.hasNext()) { JPegStmt stmt = (JPegStmt) predIt.next(); if (stmt.equals(obj)) { // System.out.println("!!!same object!!!"); continue; } Tag tag1 = (Tag) stmt.getTags().get(0); // System.out.println("pred: "+tag1+" "+stmt); // Object otherBranchFlow = unitToAfterFlow.get(stmt); if (nodes.indexOf(stmt) >= 0) // RLH { Object otherBranchFlow = valueAfter.elementAt(nodes.indexOf(stmt)); merge(beforeFlow, otherBranchFlow, beforeFlow); } } } } // Compute afterFlow and store it. { // afterFlow = unitToAfterFlow.get(s); afterFlow = valueAfter.elementAt(nodes.indexOf(s)); flowThrough(beforeFlow, s, afterFlow); // unitToAfterFlow.put(s, afterFlow); valueAfter.set(nodes.indexOf(s), afterFlow); // System.out.println("update afterFlow nodes: "+s); // System.out.println("afterFlow: "+afterFlow); // ((MonitorSet)unitToAfterFlow.get(s)).test(); numComputations++; } // Update queue appropriately if (!afterFlow.equals(previousAfterFlow)) { Iterator succIt = graph.getSuccsOf(s).iterator(); while (succIt.hasNext()) { Object succ = succIt.next(); if (!changedUnitsSet.contains(succ)) { changedUnits.addLast(succ); changedUnitsSet.add(succ); /*if (succ instanceof JPegStmt){ Tag tag1 = (Tag)((JPegStmt)succ).getTags().get(0); System.out.println("add to worklist: "+tag1+" "+succ); } else System.out.println("add to worklist: "+succ); */ } } } } } // G.v().out.println(graph.getBody().getMethod().getSignature() + " numNodes: " + numNodes + // " numComputations: " + numComputations + " avg: " + Main.truncatedOf((double) // numComputations / numNodes, 2)); Timers.v().totalFlowNodes += numNodes; Timers.v().totalFlowComputations += numComputations; }