+ // 1) construct value flow graph
+ constructFlowGraph();
+
+ // 2) construct lattices
+ inferLattices();
+
+ debug_writeLatticeDotFile();
+
+ // 3) check properties
+ checkLattices();
+
+ }
+
+ private void checkLattices() {
+
+ LinkedList<MethodDescriptor> descriptorListToAnalyze = ssjava.getSortedDescriptors();
+
+ // current descriptors to visit in fixed-point interprocedural analysis,
+ // prioritized by
+ // dependency in the call graph
+ methodDescriptorsToVisitStack.clear();
+
+ descriptorListToAnalyze.removeFirst();
+
+ Set<MethodDescriptor> methodDescriptorToVistSet = new HashSet<MethodDescriptor>();
+ methodDescriptorToVistSet.addAll(descriptorListToAnalyze);
+
+ while (!descriptorListToAnalyze.isEmpty()) {
+ MethodDescriptor md = descriptorListToAnalyze.removeFirst();
+ checkLatticesOfVirtualMethods(md);
+ }
+
+ }
+
+ private void debug_writeLatticeDotFile() {
+ // generate lattice dot file
+
+ setupToAnalyze();
+
+ while (!toAnalyzeIsEmpty()) {
+ ClassDescriptor cd = toAnalyzeNext();
+
+ setupToAnalazeMethod(cd);
+
+ SSJavaLattice<String> classLattice = cd2lattice.get(cd);
+ if (classLattice != null) {
+ ssjava.writeLatticeDotFile(cd, null, classLattice);
+ }
+
+ while (!toAnalyzeMethodIsEmpty()) {
+ MethodDescriptor md = toAnalyzeMethodNext();
+ if (ssjava.needTobeAnnotated(md)) {
+ SSJavaLattice<String> methodLattice = md2lattice.get(md);
+ if (methodLattice != null) {
+ ssjava.writeLatticeDotFile(cd, md, methodLattice);
+ }
+ }
+ }
+ }
+
+ }
+
+ private void inferLattices() {
+
+ // do fixed-point analysis
+
+ LinkedList<MethodDescriptor> descriptorListToAnalyze = ssjava.getSortedDescriptors();
+
+ // current descriptors to visit in fixed-point interprocedural analysis,
+ // prioritized by
+ // dependency in the call graph
+ methodDescriptorsToVisitStack.clear();
+
+ descriptorListToAnalyze.removeFirst();
+
+ Set<MethodDescriptor> methodDescriptorToVistSet = new HashSet<MethodDescriptor>();
+ methodDescriptorToVistSet.addAll(descriptorListToAnalyze);
+
+ while (!descriptorListToAnalyze.isEmpty()) {
+ MethodDescriptor md = descriptorListToAnalyze.removeFirst();
+ methodDescriptorsToVisitStack.add(md);
+ }
+
+ // analyze scheduled methods until there are no more to visit
+ while (!methodDescriptorsToVisitStack.isEmpty()) {
+ // start to analyze leaf node
+ MethodDescriptor md = methodDescriptorsToVisitStack.pop();
+
+ SSJavaLattice<String> methodLattice =
+ new SSJavaLattice<String>(SSJavaAnalysis.TOP, SSJavaAnalysis.BOTTOM);
+
+ System.out.println();
+ System.out.println("SSJAVA: Inferencing the lattice from " + md);
+
+ analyzeMethodLattice(md, methodLattice);
+
+ SSJavaLattice<String> prevMethodLattice = getMethodLattice(md);
+
+ if (!methodLattice.equals(prevMethodLattice)) {
+
+ setMethodLattice(md, methodLattice);
+
+ // results for callee changed, so enqueue dependents caller for
+ // further analysis
+ Iterator<MethodDescriptor> depsItr = ssjava.getDependents(md).iterator();
+ while (depsItr.hasNext()) {
+ MethodDescriptor methodNext = depsItr.next();
+ if (!methodDescriptorsToVisitStack.contains(methodNext)
+ && methodDescriptorToVistSet.contains(methodNext)) {
+ methodDescriptorsToVisitStack.add(methodNext);
+ }
+ }
+
+ }
+
+ }
+
+ }
+
+ private void checkLatticesOfVirtualMethods(MethodDescriptor md) {
+
+ if (!md.isStatic()) {
+ Set<MethodDescriptor> setPossibleCallees = new HashSet<MethodDescriptor>();
+ setPossibleCallees.addAll(ssjava.getCallGraph().getMethods(md));
+
+ for (Iterator iterator = setPossibleCallees.iterator(); iterator.hasNext();) {
+ MethodDescriptor mdCallee = (MethodDescriptor) iterator.next();
+ if (!md.equals(mdCallee)) {
+ checkConsistency(md, mdCallee);
+ }
+ }
+
+ }
+
+ }
+
+ private void checkConsistency(MethodDescriptor md1, MethodDescriptor md2) {
+
+ // check that two lattice have the same relations between parameters(+PC
+ // LOC, RETURN LOC)
+
+ MethodLocationInfo methodInfo1 = getMethodLocationInfo(md1);
+
+ SSJavaLattice<String> lattice1 = getMethodLattice(md1);
+ SSJavaLattice<String> lattice2 = getMethodLattice(md2);
+
+ Set<String> paramLocNameSet1 = methodInfo1.getParameterLocNameSet();
+
+ for (Iterator iterator = paramLocNameSet1.iterator(); iterator.hasNext();) {
+ String locName1 = (String) iterator.next();
+ for (Iterator iterator2 = paramLocNameSet1.iterator(); iterator2.hasNext();) {
+ String locName2 = (String) iterator2.next();
+
+ // System.out.println("COMPARE " + locName1 + " - " + locName2 + " "
+ // + lattice1.isGreaterThan(locName1, locName2) + "-"
+ // + lattice2.isGreaterThan(locName1, locName2));
+
+ if (!locName1.equals(locName2)) {
+
+ boolean r1 = lattice1.isGreaterThan(locName1, locName2);
+ boolean r2 = lattice2.isGreaterThan(locName1, locName2);
+
+ if (r1 != r2) {
+ throw new Error("The method " + md1 + " is not consistent with the method " + md2
+ + ".:: They have a different ordering relation between parameters " + locName1
+ + " and " + locName2 + ".");
+ }
+ }
+
+ }
+ }
+
+ }
+
+ private String getSymbol(int idx, FlowNode node) {
+ Descriptor desc = node.getDescTuple().get(idx);
+ return desc.getSymbol();
+ }
+
+ private Descriptor getDescriptor(int idx, FlowNode node) {
+ Descriptor desc = node.getDescTuple().get(idx);
+ return desc;
+ }
+
+ private void analyzeMethodLattice(MethodDescriptor md, SSJavaLattice<String> methodLattice) {
+
+ MethodLocationInfo methodInfo = getMethodLocationInfo(md);
+
+ // first take a look at method invocation nodes to newly added relations
+ // from the callee
+ analyzeLatticeMethodInvocationNode(md);
+
+ // visit each node of method flow graph
+ FlowGraph fg = getFlowGraph(md);
+ Set<FlowNode> nodeSet = fg.getNodeSet();
+
+ // for the method lattice, we need to look at the first element of
+ // NTuple<Descriptor>
+ for (Iterator iterator = nodeSet.iterator(); iterator.hasNext();) {
+ FlowNode srcNode = (FlowNode) iterator.next();
+
+ Set<FlowEdge> outEdgeSet = srcNode.getOutEdgeSet();
+ for (Iterator iterator2 = outEdgeSet.iterator(); iterator2.hasNext();) {
+ FlowEdge outEdge = (FlowEdge) iterator2.next();
+ FlowNode dstNode = outEdge.getDst();
+
+ NTuple<Descriptor> srcNodeTuple = srcNode.getDescTuple();
+ NTuple<Descriptor> dstNodeTuple = dstNode.getDescTuple();
+
+ if (outEdge.getInitTuple().equals(srcNodeTuple)
+ && outEdge.getEndTuple().equals(dstNodeTuple)) {
+
+ if ((srcNodeTuple.size() > 1 && dstNodeTuple.size() > 1)
+ && srcNodeTuple.get(0).equals(dstNodeTuple.get(0))) {
+
+ // value flows between fields
+ VarDescriptor varDesc = (VarDescriptor) srcNodeTuple.get(0);
+ ClassDescriptor varClassDesc = varDesc.getType().getClassDesc();
+ extractRelationFromFieldFlows(varClassDesc, srcNode, dstNode, 1);
+
+ } else {
+ // for the method lattice, we need to look at the first element of
+ // NTuple<Descriptor>
+ if (srcNodeTuple.size() == 1 || dstNodeTuple.size() == 1) {
+ // in this case, take a look at connected nodes at the local level
+ addRelationToLattice(md, methodLattice, srcNode, dstNode);
+ }
+ }
+
+ }
+ }
+ }
+
+ // grab the this location if the method use the 'this' reference
+ String thisLocSymbol = md.getThis().getSymbol();
+ if (methodLattice.getKeySet().contains(thisLocSymbol)) {
+ methodInfo.setThisLocName(thisLocSymbol);
+ }
+
+ // calculate a return location
+ if (!md.getReturnType().isVoid()) {
+ Set<FlowNode> returnNodeSet = fg.getReturnNodeSet();
+ Set<String> returnVarSymbolSet = new HashSet<String>();
+
+ for (Iterator iterator = returnNodeSet.iterator(); iterator.hasNext();) {
+ FlowNode rtrNode = (FlowNode) iterator.next();
+ String localSymbol = rtrNode.getDescTuple().get(0).getSymbol();
+ returnVarSymbolSet.add(localSymbol);
+ }
+
+ String returnGLB = methodLattice.getGLB(returnVarSymbolSet);
+ if (returnGLB.equals(SSJavaAnalysis.BOTTOM)) {
+ // need to insert a new location in-between the bottom and all locations
+ // that is directly connected to the bottom
+ String returnNewLocationSymbol = "Loc" + (SSJavaLattice.seed++);
+ methodLattice.insertNewLocationAtOneLevelHigher(returnGLB, returnNewLocationSymbol);
+ methodInfo.setReturnLocName(returnNewLocationSymbol);
+ } else {
+ methodInfo.setReturnLocName(returnGLB);
+ }
+ }
+
+ }
+
+ private void analyzeLatticeMethodInvocationNode(MethodDescriptor mdCaller) {
+
+ // the transformation for a call site propagates all relations between
+ // parameters from the callee
+ // if the method is virtual, it also grab all relations from any possible
+ // callees
+
+ Set<MethodInvokeNode> setMethodInvokeNode =
+ mapMethodDescriptorToMethodInvokeNodeSet.get(mdCaller);
+ if (setMethodInvokeNode != null) {
+
+ for (Iterator iterator = setMethodInvokeNode.iterator(); iterator.hasNext();) {
+ MethodInvokeNode min = (MethodInvokeNode) iterator.next();
+ MethodDescriptor mdCallee = min.getMethod();
+ Set<MethodDescriptor> setPossibleCallees = new HashSet<MethodDescriptor>();
+ if (mdCallee.isStatic()) {
+ setPossibleCallees.add(mdCallee);
+ } else {
+ setPossibleCallees.addAll(ssjava.getCallGraph().getMethods(mdCallee));
+ }
+
+ for (Iterator iterator2 = setPossibleCallees.iterator(); iterator2.hasNext();) {
+ MethodDescriptor possibleMdCallee = (MethodDescriptor) iterator2.next();
+ propagateRelationToCaller(min, mdCaller, possibleMdCallee);
+ }
+
+ }
+ }
+
+ }
+
+ private void propagateRelationToCaller(MethodInvokeNode min, MethodDescriptor mdCaller,
+ MethodDescriptor possibleMdCallee) {
+
+ SSJavaLattice<String> calleeLattice = getMethodLattice(possibleMdCallee);
+
+ FlowGraph calleeFlowGraph = getFlowGraph(possibleMdCallee);
+
+ // find parameter node
+ Set<FlowNode> paramNodeSet = calleeFlowGraph.getParameterNodeSet();
+
+ for (Iterator iterator = paramNodeSet.iterator(); iterator.hasNext();) {
+ FlowNode paramFlowNode1 = (FlowNode) iterator.next();
+
+ for (Iterator iterator2 = paramNodeSet.iterator(); iterator2.hasNext();) {
+ FlowNode paramFlowNode2 = (FlowNode) iterator2.next();
+
+ String paramSymbol1 = getSymbol(0, paramFlowNode1);
+ String paramSymbol2 = getSymbol(0, paramFlowNode2);
+ // if two parameters have a relation, we need to propagate this relation
+ // to the caller
+ if (!(paramSymbol1.equals(paramSymbol2))
+ && calleeLattice.isComparable(paramSymbol1, paramSymbol2)) {
+ int higherLocIdxCallee;
+ int lowerLocIdxCallee;
+ if (calleeLattice.isGreaterThan(paramSymbol1, paramSymbol2)) {
+ higherLocIdxCallee = calleeFlowGraph.getParamIdx(paramFlowNode1.getDescTuple());
+ lowerLocIdxCallee = calleeFlowGraph.getParamIdx(paramFlowNode2.getDescTuple());
+ } else {
+ higherLocIdxCallee = calleeFlowGraph.getParamIdx(paramFlowNode2.getDescTuple());
+ lowerLocIdxCallee = calleeFlowGraph.getParamIdx(paramFlowNode1.getDescTuple());
+ }
+
+ NTuple<Descriptor> higherArg = getArgTupleByArgIdx(min, higherLocIdxCallee);
+ NTuple<Descriptor> lowerArg = getArgTupleByArgIdx(min, lowerLocIdxCallee);
+
+ addFlowGraphEdge(mdCaller, higherArg, lowerArg);
+
+ }
+
+ }
+
+ }
+
+ }
+
+ private LocationInfo getLocationInfo(Descriptor d) {
+ if (d instanceof MethodDescriptor) {
+ return getMethodLocationInfo((MethodDescriptor) d);
+ } else {
+ return getFieldLocationInfo((ClassDescriptor) d);
+ }
+ }
+
+ private MethodLocationInfo getMethodLocationInfo(MethodDescriptor md) {
+
+ if (!mapMethodDescToMethodLocationInfo.containsKey(md)) {
+ mapMethodDescToMethodLocationInfo.put(md, new MethodLocationInfo(md));
+ }
+
+ return mapMethodDescToMethodLocationInfo.get(md);
+
+ }
+
+ private LocationInfo getFieldLocationInfo(ClassDescriptor cd) {
+
+ if (!mapClassToLocationInfo.containsKey(cd)) {
+ mapClassToLocationInfo.put(cd, new LocationInfo(cd));
+ }
+
+ return mapClassToLocationInfo.get(cd);
+
+ }
+
+ private void addRelationToLattice(MethodDescriptor md, SSJavaLattice<String> methodLattice,
+ FlowNode srcNode, FlowNode dstNode) {
+
+ System.out.println("### addRelationToLattice src=" + srcNode + " dst=" + dstNode);
+
+ // add a new binary relation of dstNode < srcNode
+ FlowGraph flowGraph = getFlowGraph(md);
+ MethodLocationInfo methodInfo = getMethodLocationInfo(md);
+
+ String srcOriginSymbol = getSymbol(0, srcNode);
+ String dstOriginSymbol = getSymbol(0, dstNode);
+
+ Descriptor srcDesc = getDescriptor(0, srcNode);
+ Descriptor dstDesc = getDescriptor(0, dstNode);
+
+ String srcSymbol = methodInfo.getLocName(srcOriginSymbol);
+ String dstSymbol = methodInfo.getLocName(dstOriginSymbol);
+
+ if (srcNode.isParameter()) {
+ int paramIdx = flowGraph.getParamIdx(srcNode.getDescTuple());
+ methodInfo.addParameter(srcSymbol, srcDesc, paramIdx);
+ } else {
+ methodInfo.addMappingOfLocNameToDescriptor(srcSymbol, srcDesc);
+ }
+
+ if (dstNode.isParameter()) {
+ int paramIdx = flowGraph.getParamIdx(dstNode.getDescTuple());
+ methodInfo.addParameter(dstSymbol, dstDesc, paramIdx);
+ } else {
+ methodInfo.addMappingOfLocNameToDescriptor(dstSymbol, dstDesc);
+ }
+
+ // consider a composite location case
+
+ boolean isSrcLocalVar = false;
+ boolean isDstLocalVar = false;
+ if (srcNode.getDescTuple().size() == 1) {
+ isSrcLocalVar = true;
+ }
+
+ if (dstNode.getDescTuple().size() == 1) {
+ isDstLocalVar = true;
+ }
+
+ boolean isAssignedCompositeLocation = false;
+ if (isSrcLocalVar && isDstLocalVar) {
+ // both src and dst are local var
+
+ // CompositeLocation inferSrc=methodInfo.getInferLocation(srcNode);
+ // CompositeLocation inferDst=methodInfo.getInferLocation(dstNode);
+ // if( (inferSrc!=null && inferSrc.getSize()>1) || (inferDst!=null &&
+ // inferDst.getSize()>1)){
+ // isAssignedCompositeLocation = true;
+ // }
+
+ // TODO: need to fix
+ isAssignedCompositeLocation =
+ calculateCompositeLocationForLocalVar(flowGraph, methodLattice, methodInfo, srcNode);
+ calculateCompositeLocationForLocalVar(flowGraph, methodLattice, methodInfo, dstNode);
+
+ } else if (isSrcLocalVar) {
+ // src is local var
+ isAssignedCompositeLocation =
+ calculateCompositeLocationForLocalVar(flowGraph, methodLattice, methodInfo, srcNode);
+ } else if (isDstLocalVar) {
+ // dst is local var
+ isAssignedCompositeLocation =
+ calculateCompositeLocationForLocalVar(flowGraph, methodLattice, methodInfo, dstNode);
+ }
+
+ if (!isAssignedCompositeLocation) {
+ if (!methodLattice.isGreaterThan(srcSymbol, dstSymbol)) {
+ // if the lattice does not have this relation, add it
+ methodLattice.addRelationHigherToLower(srcSymbol, dstSymbol);
+ }
+ }
+
+ // Set<String> cycleElementSet =
+ // methodLattice.getPossibleCycleElements(srcSymbol, dstSymbol);
+ //
+ // System.out.println("### POSSIBLE CYCLE ELEMENT SET=" + cycleElementSet);
+ // boolean hasNonPrimitiveElement = false;
+ // for (Iterator iterator = cycleElementSet.iterator(); iterator.hasNext();)
+ // {
+ // String cycleElementSymbol = (String) iterator.next();
+ // Set<Descriptor> flowNodeSet =
+ // methodInfo.getFlowNodeSet(cycleElementSymbol);
+ // for (Iterator iterator2 = flowNodeSet.iterator(); iterator2.hasNext();) {
+ // Descriptor desc = (Descriptor) iterator2.next();
+ // if (!isPrimitiveTypeDescriptor(desc)) {
+ // hasNonPrimitiveElement = true;
+ // }
+ // System.out
+ // .println("flowNode=" + desc + " is primitive?=" +
+ // isPrimitiveTypeDescriptor(desc));
+ // }
+ // }
+ //
+ // if (hasNonPrimitiveElement) {
+ // // if there is non-primitive element in the cycle, no way to merge cyclic
+ // // elements into the shared location
+ // System.out.println("Failed to merge cyclic value flows into a shared location.");
+ //
+ // // try to assign more fine-grind composite location to the source or the
+ // // destination
+ // System.out.println("SRC=" + srcSymbol + " DST=" + dstSymbol);
+ // System.out.println("### SRCNODE=" + srcNode + " DSTNODE=" + dstNode);
+ //
+ // FlowNode targetNode;
+ // if (isPrimitiveLocalVariable(srcNode)) {
+ // targetNode = srcNode;
+ // } else {
+ // targetNode = dstNode;
+ // }
+ //
+ // calculateMoreFineGrainedLocation(md, methodLattice, targetNode);
+ //
+ // return;
+ // }
+ //
+ // if (cycleElementSet.size() > 0) {
+ // String newSharedLoc = "SharedLoc" + (SSJavaLattice.seed++);
+ // methodLattice.mergeIntoSharedLocation(cycleElementSet, newSharedLoc);
+ //
+ // for (Iterator iterator = cycleElementSet.iterator(); iterator.hasNext();)
+ // {
+ // String locName = (String) iterator.next();
+ // methodInfo.mapDescSymbolToLocName(locName, newSharedLoc);
+ // }
+ //
+ // } else if (!methodLattice.isGreaterThan(srcSymbol, dstSymbol)) {
+ // // if the lattice does not have this relation, add it
+ // methodLattice.addRelationHigherToLower(srcSymbol, dstSymbol);
+ // }
+ //
+ // System.out.println("methodLattice=" + methodLattice.getKeySet());
+
+ }
+
+ private void addPrefixMapping(Map<NTuple<Location>, Set<NTuple<Location>>> map,
+ NTuple<Location> prefix, NTuple<Location> element) {
+
+ if (!map.containsKey(prefix)) {
+ map.put(prefix, new HashSet<NTuple<Location>>());
+ }
+ map.get(prefix).add(element);
+
+ }
+
+ private NTuple<Location> getLocationTuple(MethodLocationInfo methodInfo, FlowGraph flowGraph,
+ FlowNode flowNode) {
+
+ NTuple<Location> locTuple;
+ CompositeLocation inferLoc = methodInfo.getInferLocation(flowNode);
+ if (inferLoc != null) {
+ // the flow node has already been assigned to the location
+ locTuple = new NTuple<Location>();
+ NTuple<Location> inferLocTuple = inferLoc.getTuple();
+ for (int i = 0; i < inferLocTuple.size(); i++) {
+ locTuple.add(inferLocTuple.get(i));
+ }
+ } else {
+ locTuple = flowGraph.getLocationTuple(flowNode);
+ }
+
+ return locTuple;
+ }
+
+ private boolean calculateCompositeLocationForLocalVar(FlowGraph flowGraph,
+ SSJavaLattice<String> methodLattice, MethodLocationInfo methodInfo, FlowNode flowNode) {
+
+ Set<FlowNode> inNodeSet = flowGraph.getIncomingFlowNodeSet(flowNode);
+ Set<FlowNode> reachableNodeSet = flowGraph.getReachableFlowNodeSet(flowNode);
+
+ Map<NTuple<Location>, Set<NTuple<Location>>> mapPrefixToIncomingLocTupleSet =
+ new HashMap<NTuple<Location>, Set<NTuple<Location>>>();
+
+ List<NTuple<Location>> prefixList = new ArrayList<NTuple<Location>>();
+
+ for (Iterator iterator = inNodeSet.iterator(); iterator.hasNext();) {
+ FlowNode inNode = (FlowNode) iterator.next();
+ NTuple<Location> inTuple = getLocationTuple(methodInfo, flowGraph, inNode);
+
+ if (inTuple.size() > 1) {
+ for (int i = 1; i < inTuple.size(); i++) {
+ NTuple<Location> prefix = inTuple.subList(0, i);
+ if (!prefixList.contains(prefix)) {
+ prefixList.add(prefix);
+ }
+ addPrefixMapping(mapPrefixToIncomingLocTupleSet, prefix, inTuple);
+ }
+ }
+ }
+
+ Collections.sort(prefixList, new Comparator<NTuple<Location>>() {
+ public int compare(NTuple<Location> arg0, NTuple<Location> arg1) {
+ int s0 = arg0.size();
+ int s1 = arg1.size();
+ if (s0 > s1) {
+ return -1;
+ } else if (s0 == s1) {
+ return 0;
+ } else {
+ return 1;
+ }
+ }
+ });
+
+ // find out reachable nodes that have the longest common prefix
+ for (int i = 0; i < prefixList.size(); i++) {
+ NTuple<Location> curPrefix = prefixList.get(i);
+ Set<NTuple<Location>> reachableCommonPrefixSet = new HashSet<NTuple<Location>>();
+
+ for (Iterator iterator2 = reachableNodeSet.iterator(); iterator2.hasNext();) {
+ FlowNode reachableNode = (FlowNode) iterator2.next();
+ NTuple<Location> reachLocTuple = flowGraph.getLocationTuple(reachableNode);
+ if (reachLocTuple.startsWith(curPrefix)) {
+ reachableCommonPrefixSet.add(reachLocTuple);
+ }
+ }
+
+ if (!reachableCommonPrefixSet.isEmpty()) {
+ Set<NTuple<Location>> incomingCommonPrefixSet =
+ mapPrefixToIncomingLocTupleSet.get(curPrefix);
+
+ int idx = curPrefix.size();
+ NTuple<Location> element = incomingCommonPrefixSet.iterator().next();
+ Descriptor desc = element.get(idx).getDescriptor();
+
+ SSJavaLattice<String> lattice = getLattice(desc);
+ LocationInfo locInfo = getLocationInfo(desc);
+
+ CompositeLocation inferNode = methodInfo.getInferLocation(flowNode);
+ String nodeSymbol;
+ if (inferNode != null) {
+
+ } else {
+ String newLocSymbol = "Loc" + (SSJavaLattice.seed++);
+ inferNode = new CompositeLocation();
+ for (int locIdx = 0; locIdx < curPrefix.size(); locIdx++) {
+ inferNode.addLocation(curPrefix.get(locIdx));
+ }
+ inferNode.addLocation(new Location(desc, newLocSymbol));
+ methodInfo.mapFlowNodeToInferLocation(flowNode, inferNode);
+ if (flowNode.getDescTuple().size() == 1) {
+ // local variable case
+ modifyLocalLatticeAccrodingToNewlyAddedCompositeLocation(methodLattice, methodInfo,
+ inferNode, flowNode);
+ }
+ }
+
+ nodeSymbol = inferNode.get(inferNode.getSize() - 1).getLocIdentifier();
+
+ for (Iterator iterator = incomingCommonPrefixSet.iterator(); iterator.hasNext();) {
+ NTuple<Location> tuple = (NTuple<Location>) iterator.next();
+ Location loc = tuple.get(idx);
+ String higher = locInfo.getLocName(loc.getLocIdentifier());
+ lattice.addRelationHigherToLower(higher, nodeSymbol);
+ }
+
+ for (Iterator iterator = reachableCommonPrefixSet.iterator(); iterator.hasNext();) {
+ NTuple<Location> tuple = (NTuple<Location>) iterator.next();
+ Location loc = tuple.get(idx);
+ String lower = locInfo.getLocName(loc.getLocIdentifier());
+ lattice.addRelationHigherToLower(nodeSymbol, lower);
+ }
+
+ return true;
+ }
+
+ }
+
+ return false;
+
+ }
+
+ private void modifyLocalLatticeAccrodingToNewlyAddedCompositeLocation(
+ SSJavaLattice<String> methodLattice, MethodLocationInfo methodInfo,
+ CompositeLocation inferNode, FlowNode flowNode) {
+
+ Location localLocation = inferNode.get(0);
+ String newLocName = methodInfo.getLocName(localLocation.getLocIdentifier());
+ String oldLocName = methodInfo.getLocName(flowNode.getDescTuple().get(0).getSymbol());
+
+ methodInfo.mapDescSymbolToLocName(oldLocName, newLocName);
+ methodLattice.substituteLocation(oldLocName, newLocName);
+
+ }
+
+ public boolean isPrimitiveLocalVariable(FlowNode node) {
+ VarDescriptor varDesc = (VarDescriptor) node.getDescTuple().get(0);
+ return varDesc.getType().isPrimitive();
+ }
+
+ private SSJavaLattice<String> getLattice(Descriptor d) {
+ if (d instanceof MethodDescriptor) {
+ return getMethodLattice((MethodDescriptor) d);
+ } else {
+ return getFieldLattice((ClassDescriptor) d);
+ }
+ }
+
+ private SSJavaLattice<String> getMethodLattice(MethodDescriptor md) {
+ if (!md2lattice.containsKey(md)) {
+ md2lattice.put(md, new SSJavaLattice<String>(SSJavaAnalysis.TOP, SSJavaAnalysis.BOTTOM));
+ }
+ return md2lattice.get(md);
+ }
+
+ private void setMethodLattice(MethodDescriptor md, SSJavaLattice<String> lattice) {
+ md2lattice.put(md, lattice);
+ }
+
+ private void extractRelationFromFieldFlows(ClassDescriptor cd, FlowNode srcNode,
+ FlowNode dstNode, int idx) {
+
+ if (srcNode.getDescTuple().get(idx).equals(dstNode.getDescTuple().get(idx))
+ && srcNode.getDescTuple().size() > (idx + 1) && dstNode.getDescTuple().size() > (idx + 1)) {
+ // value flow between fields: we don't need to add a binary relation
+ // for this case
+
+ Descriptor desc = srcNode.getDescTuple().get(idx);
+ ClassDescriptor classDesc;
+
+ if (idx == 0) {
+ classDesc = ((VarDescriptor) desc).getType().getClassDesc();
+ } else {
+ classDesc = ((FieldDescriptor) desc).getType().getClassDesc();
+ }
+
+ extractRelationFromFieldFlows(classDesc, srcNode, dstNode, idx + 1);
+
+ } else {
+
+ Descriptor srcFieldDesc = srcNode.getDescTuple().get(idx);
+ Descriptor dstFieldDesc = dstNode.getDescTuple().get(idx);
+
+ // add a new binary relation of dstNode < srcNode
+ SSJavaLattice<String> fieldLattice = getFieldLattice(cd);
+
+ String srcOriginalSymbol = srcFieldDesc.getSymbol();
+ String dstOriginalSymbol = dstFieldDesc.getSymbol();
+
+ LocationInfo fieldInfo = getFieldLocationInfo(cd);
+
+ String srcSymbol = fieldInfo.getLocName(srcOriginalSymbol);
+ String dstSymbol = fieldInfo.getLocName(dstOriginalSymbol);
+
+ Set<String> cycleElementSet = fieldLattice.getPossibleCycleElements(srcSymbol, dstSymbol);
+
+ if (cycleElementSet.size() > 0) {
+ String newSharedLoc = "SharedLoc" + (SSJavaLattice.seed++);
+ fieldLattice.mergeIntoSharedLocation(cycleElementSet, newSharedLoc);
+
+ for (Iterator iterator = cycleElementSet.iterator(); iterator.hasNext();) {
+ String locName = (String) iterator.next();
+ fieldInfo.mapDescSymbolToLocName(locName, newSharedLoc);
+ }
+
+ } else if (!fieldLattice.isGreaterThan(srcSymbol, dstSymbol)) {
+ // if the lattice does not have this relation, add it
+ fieldLattice.addRelationHigherToLower(srcSymbol, dstSymbol);
+ }
+
+ }
+
+ }
+
+ public SSJavaLattice<String> getFieldLattice(ClassDescriptor cd) {
+ if (!cd2lattice.containsKey(cd)) {
+ cd2lattice.put(cd, new SSJavaLattice<String>(SSJavaAnalysis.TOP, SSJavaAnalysis.BOTTOM));
+ }
+ return cd2lattice.get(cd);
+ }
+
+ public void constructFlowGraph() {
+