import IR.State;
import IR.SymbolTable;
import IR.TypeDescriptor;
+import IR.TypeUtil;
import IR.VarDescriptor;
import IR.Tree.ArrayAccessNode;
import IR.Tree.AssignmentNode;
public class LocationInference {
+ static int COUNT = 0;
+
State state;
SSJavaAnalysis ssjava;
+ TypeUtil tu;
List<ClassDescriptor> temp_toanalyzeList;
List<MethodDescriptor> temp_toanalyzeMethodList;
Map<MethodDescriptor, FlowGraph> mapMethodDescriptorToFlowGraph;
LinkedList<MethodDescriptor> toanalyze_methodDescList;
+ Set<ClassDescriptor> toanalyze_classDescSet;
+
+ // InheritanceTree<ClassDescriptor> inheritanceTree;
// map a method descriptor to its set of parameter descriptors
Map<MethodDescriptor, Set<Descriptor>> mapMethodDescriptorToParamDescSet;
private Map<MethodDescriptor, Boolean> mapMethodDescriptorToCompositeReturnCase;
+ private Map<MethodDescriptor, MethodDescriptor> mapMethodDescToHighestOverriddenMethodDesc;
+
+ private Map<MethodDescriptor, Set<MethodDescriptor>> mapHighestOverriddenMethodDescToMethodDescSet;
+
+ private Map<MethodDescriptor, NTuple<Descriptor>> mapHighestOverriddenMethodDescToReturnLocTuple;
+
+ private Map<MethodDescriptor, NTuple<Descriptor>> mapHighestOverriddenMethodDescToPCLocTuple;
+
+ private Map<MethodDescriptor, Set<NTuple<Descriptor>>> mapHighestOverriddenMethodDescToSetLowerThanPCLoc;
+
public static final String GLOBALLOC = "GLOBALLOC";
public static final String INTERLOC = "INTERLOC";
private Stack<String> arrayAccessNodeStack;
- public LocationInference(SSJavaAnalysis ssjava, State state) {
+ private ClassDescriptor rootClassDescriptor;
+
+ private BuildLattice buildLattice;
+
+ public LocationInference(SSJavaAnalysis ssjava, State state, TypeUtil tu) {
this.ssjava = ssjava;
this.state = state;
+ this.tu = tu;
+ this.toanalyze_classDescSet = new HashSet<ClassDescriptor>();
this.temp_toanalyzeList = new ArrayList<ClassDescriptor>();
this.temp_toanalyzeMethodList = new ArrayList<MethodDescriptor>();
this.mapMethodDescriptorToFlowGraph = new HashMap<MethodDescriptor, FlowGraph>();
this.mapMethodDescriptorToCompositeReturnCase = new HashMap<MethodDescriptor, Boolean>();
+ mapMethodDescToHighestOverriddenMethodDesc = new HashMap<MethodDescriptor, MethodDescriptor>();
+
+ mapHighestOverriddenMethodDescToSetLowerThanPCLoc =
+ new HashMap<MethodDescriptor, Set<NTuple<Descriptor>>>();
+
+ mapHighestOverriddenMethodDescToMethodDescSet =
+ new HashMap<MethodDescriptor, Set<MethodDescriptor>>();
+
+ mapHighestOverriddenMethodDescToReturnLocTuple =
+ new HashMap<MethodDescriptor, NTuple<Descriptor>>();
+
+ mapHighestOverriddenMethodDescToPCLocTuple =
+ new HashMap<MethodDescriptor, NTuple<Descriptor>>();
+
+ this.buildLattice = new BuildLattice(this);
+
}
public void setupToAnalyze() {
_debug_writeFlowGraph();
- // System.exit(0);
+ buildInheritanceTree();
+ calculateReturnPCLocInheritance();
constructHierarchyGraph();
- debug_writeHierarchyDotFiles();
+ addInheritanceConstraintsToHierarchyGraph();
- // System.exit(0);
+ debug_writeHierarchyDotFiles();
simplifyHierarchyGraph();
debug_writeSkeletonCombinationHierarchyDotFiles();
- buildLattice();
+ buildLatticeInheritanceTree();
+ // buildLattice();
debug_writeLattices();
generateAnnoatedCode();
+ for (Iterator iterator = cd2lattice.keySet().iterator(); iterator.hasNext();) {
+ ClassDescriptor cd = (ClassDescriptor) iterator.next();
+ SSJavaLattice<String> lattice = getLattice(cd);
+ HierarchyGraph hg = mapDescriptorToHierarchyGraph.get(cd);
+ // System.out.println("~~~\t" + cd + "\t" + lattice.getKeySet().size() + "\t"
+ // + hg.getNodeSet().size());
+ }
+
+ for (Iterator iterator = md2lattice.keySet().iterator(); iterator.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator.next();
+ SSJavaLattice<String> locOrder = getLattice(md);
+ // writeLatticeDotFile(md.getClassDesc(), md, getMethodLattice(md));
+ HierarchyGraph hg = mapDescriptorToHierarchyGraph.get(md);
+ // System.out.println("~~~\t" + md.getClassDesc() + "_" + md + "\t"
+ // + locOrder.getKeySet().size() + "\t" + hg.getNodeSet().size());
+ }
+
System.exit(0);
}
+ private void calculateReturnPCLocInheritance() {
+ calculateHighestPCLocInheritance();
+ calculateLowestReturnLocInheritance();
+ updateFlowGraphPCReturnLocInheritance();
+ }
+
+ private void updateFlowGraphPCReturnLocInheritance() {
+ Set<MethodDescriptor> keySet = mapHighestOverriddenMethodDescToMethodDescSet.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ MethodDescriptor highestMethodDesc = (MethodDescriptor) iterator.next();
+
+ if (mapHighestOverriddenMethodDescToMethodDescSet.get(highestMethodDesc).size() == 1) {
+ continue;
+ }
+
+ Set<MethodDescriptor> methodDescSet =
+ mapHighestOverriddenMethodDescToMethodDescSet.get(highestMethodDesc);
+
+ NTuple<Descriptor> highestPCLoc =
+ mapHighestOverriddenMethodDescToPCLocTuple.get(highestMethodDesc);
+
+ NTuple<Descriptor> highestRETURNLoc =
+ mapHighestOverriddenMethodDescToReturnLocTuple.get(highestMethodDesc);
+
+ System.out.println("---highestMethodDesc=" + highestMethodDesc);
+
+ for (Iterator iterator2 = methodDescSet.iterator(); iterator2.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator2.next();
+ FlowGraph flowGraph = getFlowGraph(md);
+
+ MethodSummary summary = getMethodSummary(md);
+ CompositeLocation curPCLoc = summary.getPCLoc();
+
+ // update PCLOC
+ if (highestPCLoc != null) {
+ // handle the case that PCLOC is started with 'this'...
+ NTuple<Descriptor> newPCLoc = new NTuple<Descriptor>();
+ if (highestPCLoc.size() == 1) {
+ newPCLoc.add(highestPCLoc.get(0));
+ } else {
+ newPCLoc.add(md.getThis());
+ newPCLoc.add(highestPCLoc.get(1));
+ }
+
+ FlowNode pcFlowNode = flowGraph.getFlowNode(translateToDescTuple(curPCLoc.getTuple()));
+ pcFlowNode.setBaseTuple(newPCLoc);
+
+ CompositeLocation newPCLocCompLoc =
+ new CompositeLocation(translateToLocTuple(md, newPCLoc));
+ summary.setPCLoc(newPCLocCompLoc);
+ } else {
+ // need to remove PCLOC if the overridden method defines it
+ if (curPCLoc != null && !curPCLoc.get(0).isTop()) {
+ System.out.println("md=" + md + " curPCLoc=" + curPCLoc);
+ FlowNode pcFlowNode = flowGraph.getFlowNode(translateToDescTuple(curPCLoc.getTuple()));
+ System.out.println("#######REMOVE PCLOCNODE=" + pcFlowNode);
+ flowGraph.removeNode(pcFlowNode);
+ }
+ }
+
+ // need to update RETURNLOC
+ if (highestRETURNLoc != null) {
+
+ CompositeLocation curRETURNLoc = summary.getRETURNLoc();
+ System.out.println("curRETURNLoc=" + curRETURNLoc);
+
+ // handle the case that RETURNLOC is started with 'this'...
+ NTuple<Descriptor> newRETURNLoc = new NTuple<Descriptor>();
+ if (highestRETURNLoc.size() == 1) {
+ newRETURNLoc.add(highestRETURNLoc.get(0));
+ } else {
+ newRETURNLoc.add(md.getThis());
+ newRETURNLoc.add(highestRETURNLoc.get(1));
+ }
+
+ FlowNode returnFlowNode =
+ flowGraph.getFlowNode(translateToDescTuple(curRETURNLoc.getTuple()));
+ returnFlowNode.setBaseTuple(newRETURNLoc);
+
+ CompositeLocation newRETURNLocCompLoc =
+ new CompositeLocation(translateToLocTuple(md, newRETURNLoc));
+ summary.setPCLoc(newRETURNLocCompLoc);
+ System.out.println("md=" + md + "###newRETURNLocCompLoc=" + newRETURNLocCompLoc);
+
+ }
+
+ }
+ }
+ }
+
+ private void calculateHighestPCLocInheritance() {
+
+ Set<MethodDescriptor> keySet = mapHighestOverriddenMethodDescToMethodDescSet.keySet();
+ next: for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ MethodDescriptor highestMethodDesc = (MethodDescriptor) iterator.next();
+
+ NTuple<Descriptor> tempTuple = null;
+
+ if (getMethodSummary(highestMethodDesc).getPCLoc() != null) {
+
+ Set<MethodDescriptor> methodDescSet =
+ mapHighestOverriddenMethodDescToMethodDescSet.get(highestMethodDesc);
+
+ for (Iterator iterator2 = methodDescSet.iterator(); iterator2.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator2.next();
+
+ FlowGraph flowGraph = getFlowGraph(md);
+ if (flowGraph == null) {
+ continue;
+ }
+ Set<FlowNode> paramNodeSet = flowGraph.getParamFlowNodeSet();
+ System.out.println("###md=" + md + " paramNodeSet=" + paramNodeSet);
+
+ CompositeLocation pcLOC = getMethodSummary(md).getPCLoc();
+
+ if (!pcLOC.get(0).isTop()) {
+ if (pcLOC.getSize() == 1) {
+ // return location is not started with 'this'
+ // check whether the return location is lower than all parameters.
+
+ FlowNode pcFlowNode = flowGraph.getFlowNode(translateToDescTuple(pcLOC.getTuple()));
+
+ int count = 0;
+ for (Iterator iterator3 = paramNodeSet.iterator(); iterator3.hasNext();) {
+ FlowNode paramNode = (FlowNode) iterator3.next();
+ if (flowGraph.getReachableSetFrom(pcFlowNode.getCurrentDescTuple().subList(0, 1))
+ .contains(paramNode)) {
+ count++;
+ System.out.println("-------" + pcFlowNode + " -> " + paramNode);
+ }
+ }
+
+ int offset = 0;
+ if (!md.isStatic()) {
+ offset = 1;
+ }
+
+ NTuple<Descriptor> rTuple = new NTuple<Descriptor>();
+ rTuple.add(pcLOC.get(0).getLocDescriptor());
+ if (count == (md.numParameters() + offset)) {
+ // means return loc is lower than a composite location starting with 'this'
+ mapHighestOverriddenMethodDescToPCLocTuple.put(highestMethodDesc, rTuple);
+ } else {
+ if (tempTuple == null) {
+ tempTuple = rTuple;
+ }
+ }
+ } else {
+ // if the current overridden method has a composite pc loc(size>1)
+ // and it has not yet finalized the pc location,
+ // the highest overridden method would have the composite pc location starting with
+ // 'this'
+ NTuple<Descriptor> rTuple = new NTuple<Descriptor>();
+ for (int i = 0; i < pcLOC.getSize(); i++) {
+ rTuple.add(pcLOC.get(i).getLocDescriptor());
+ }
+ tempTuple = rTuple;
+ }
+ } else {
+ mapHighestOverriddenMethodDescToPCLocTuple.remove(highestMethodDesc);
+ System.out.println("highest=" + highestMethodDesc + " HIGHEST PCLOC="
+ + mapHighestOverriddenMethodDescToPCLocTuple.get(highestMethodDesc));
+ continue next;
+ }
+ }
+
+ }
+
+ if (!mapHighestOverriddenMethodDescToPCLocTuple.containsKey(highestMethodDesc)
+ && tempTuple != null) {
+ mapHighestOverriddenMethodDescToPCLocTuple.put(highestMethodDesc, tempTuple);
+ }
+ System.out.println("highest=" + highestMethodDesc + " HIGHEST PCLOC="
+ + mapHighestOverriddenMethodDescToPCLocTuple.get(highestMethodDesc));
+ }
+
+ }
+
+ private void calculateLowestReturnLocInheritance() {
+
+ Set<MethodDescriptor> keySet = mapHighestOverriddenMethodDescToMethodDescSet.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ MethodDescriptor highestMethodDesc = (MethodDescriptor) iterator.next();
+
+ NTuple<Descriptor> tempTuple = null;
+
+ if (getMethodSummary(highestMethodDesc).getRETURNLoc() != null) {
+ Set<MethodDescriptor> methodDescSet =
+ mapHighestOverriddenMethodDescToMethodDescSet.get(highestMethodDesc);
+ for (Iterator iterator2 = methodDescSet.iterator(); iterator2.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator2.next();
+
+ FlowGraph flowGraph = getFlowGraph(md);
+ Set<FlowNode> paramNodeSet = flowGraph.getParamFlowNodeSet();
+ System.out.println("###md=" + md + " paramNodeSet=" + paramNodeSet);
+
+ CompositeLocation returnLoc = getMethodSummary(md).getRETURNLoc();
+ if (returnLoc.getSize() == 1) {
+ // return location is not started with 'this'
+ // check whether the return location is lower than all parameters.
+
+ FlowNode returnFlowNode =
+ flowGraph.getFlowNode(translateToDescTuple(returnLoc.getTuple()));
+
+ int count = 0;
+ for (Iterator iterator3 = paramNodeSet.iterator(); iterator3.hasNext();) {
+ FlowNode paramNode = (FlowNode) iterator3.next();
+ if (flowGraph.getReachableSetFrom(paramNode.getCurrentDescTuple().subList(0, 1))
+ .contains(returnFlowNode)) {
+ count++;
+ System.out.println("-------" + paramNode + " -> " + returnFlowNode);
+ }
+ }
+
+ int offset = 0;
+ if (!md.isStatic()) {
+ offset = 1;
+ }
+
+ NTuple<Descriptor> rTuple = new NTuple<Descriptor>();
+ rTuple.add(returnLoc.get(0).getLocDescriptor());
+ if (count == (md.numParameters() + offset)) {
+ // means return loc is lower than a composite location starting with 'this'
+ mapHighestOverriddenMethodDescToReturnLocTuple.put(highestMethodDesc, rTuple);
+ } else {
+ if (tempTuple == null) {
+ tempTuple = rTuple;
+ }
+ }
+ } else {
+ // if the current overridden method has a composite return loc(size>1)
+ // and it has not yet finalized the return location
+ // the highest overridden method has the composite return location starting with
+ // 'this'
+ NTuple<Descriptor> rTuple = new NTuple<Descriptor>();
+ for (int i = 0; i < returnLoc.getSize(); i++) {
+ rTuple.add(returnLoc.get(i).getLocDescriptor());
+ }
+ tempTuple = rTuple;
+ }
+
+ }
+
+ }
+
+ if (!mapHighestOverriddenMethodDescToReturnLocTuple.containsKey(highestMethodDesc)
+ && tempTuple != null) {
+ mapHighestOverriddenMethodDescToReturnLocTuple.put(highestMethodDesc, tempTuple);
+ }
+ System.out.println("highest=" + highestMethodDesc + " rTuple="
+ + mapHighestOverriddenMethodDescToReturnLocTuple.get(highestMethodDesc));
+ }
+
+ }
+
+ private void addMapHighestMethodDescToMethodDesc(MethodDescriptor highest, MethodDescriptor md) {
+ if (!mapHighestOverriddenMethodDescToMethodDescSet.containsKey(highest)) {
+ mapHighestOverriddenMethodDescToMethodDescSet.put(highest, new HashSet<MethodDescriptor>());
+ }
+ mapHighestOverriddenMethodDescToMethodDescSet.get(highest).add(md);
+ }
+
+ private void DFSInheritanceTreeCalculatingHighestOverriddenMethod(ClassDescriptor cd) {
+
+ // ClassDescriptor cd = node.getData();
+
+ for (Iterator iterator = cd.getMethods(); iterator.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator.next();
+ MethodDescriptor highestMethodDesc = getHighestOverriddenMethod(md.getClassDesc(), md);
+ mapMethodDescToHighestOverriddenMethodDesc.put(md, highestMethodDesc);
+ addMapHighestMethodDescToMethodDesc(highestMethodDesc, md);
+
+ }
+
+ // traverse children
+ Set<ClassDescriptor> children = getDirectSubClasses(cd);
+ for (Iterator iterator = children.iterator(); iterator.hasNext();) {
+ ClassDescriptor child = (ClassDescriptor) iterator.next();
+ DFSInheritanceTreeCalculatingHighestOverriddenMethod(child);
+ }
+
+ }
+
+ private MethodDescriptor getHighestOverriddenMethod(ClassDescriptor curClassDesc,
+ MethodDescriptor curMethodDesc) {
+
+ // Node<ClassDescriptor> curNode = inheritanceTree.getTreeNode(curClassDesc);
+ // Node<ClassDescriptor> parentNode = curNode.getParent();
+ ClassDescriptor parentClassDesc = curClassDesc.getSuperDesc();
+
+ if (parentClassDesc != null) {
+ if (parentClassDesc.getMethodTable().contains(curMethodDesc.getSymbol())) {
+ Set<MethodDescriptor> methodDescSet =
+ parentClassDesc.getMethodTable().getSet(curMethodDesc.getSymbol());
+ for (Iterator iterator = methodDescSet.iterator(); iterator.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator.next();
+ if (md.matches(curMethodDesc)) {
+ return getHighestOverriddenMethod(parentClassDesc, md);
+ }
+ }
+ }
+ // traverse to the parent!
+ return getHighestOverriddenMethod(parentClassDesc, curMethodDesc);
+ }
+ return curMethodDesc;
+ }
+
+ private void buildInheritanceTree() {
+
+ DFSInheritanceTreeCalculatingHighestOverriddenMethod(rootClassDescriptor);
+
+ }
+
+ private void addInheritanceConstraintsToHierarchyGraph() {
+
+ // DFS the inheritance tree and propagates nodes/edges of parent to child
+
+ // Node<ClassDescriptor> rootNode = inheritanceTree.getRootNode();
+ DFSInheritanceTree(rootClassDescriptor);
+
+ }
+
+ private void DFSInheritanceTree(ClassDescriptor parentClassDescriptor) {
+
+ // ClassDescriptor parentClassDescriptor = parentNode.getData();
+
+ Set<ClassDescriptor> children = getDirectSubClasses(parentClassDescriptor);
+ for (Iterator iterator = children.iterator(); iterator.hasNext();) {
+ ClassDescriptor childClassDescriptor = (ClassDescriptor) iterator.next();
+
+ HierarchyGraph parentGraph = getHierarchyGraph(parentClassDescriptor);
+ HierarchyGraph childGraph = getHierarchyGraph(childClassDescriptor);
+
+ // copies extra information from the parent hierarchy graph
+ Map<HNode, Set<HNode>> parentMergeNodeMap = parentGraph.getMapHNodetoMergeSet();
+ Map<HNode, Set<HNode>> childMergeNodeMap = childGraph.getMapHNodetoMergeSet();
+
+ Set<HNode> keySet = parentMergeNodeMap.keySet();
+ for (Iterator iterator2 = keySet.iterator(); iterator2.hasNext();) {
+ HNode parentKey = (HNode) iterator2.next();
+ if (!childMergeNodeMap.containsKey(parentKey)) {
+ childMergeNodeMap.put(parentKey, new HashSet<HNode>());
+ }
+ childMergeNodeMap.get(parentKey).addAll(parentMergeNodeMap.get(parentKey));
+ }
+
+ // copies nodes/edges from the parent class...
+ Set<HNode> parentNodeSet = parentGraph.getNodeSet();
+ for (Iterator iterator2 = parentNodeSet.iterator(); iterator2.hasNext();) {
+ HNode parentHNode = (HNode) iterator2.next();
+
+ Set<HNode> parentIncomingHNode = parentGraph.getIncomingNodeSet(parentHNode);
+ Set<HNode> parentOutgoingHNode = parentGraph.getOutgoingNodeSet(parentHNode);
+
+ for (Iterator iterator3 = parentIncomingHNode.iterator(); iterator3.hasNext();) {
+ HNode inHNode = (HNode) iterator3.next();
+ childGraph.addEdge(inHNode.getDescriptor(), parentHNode.getDescriptor());
+ }
+
+ for (Iterator iterator3 = parentOutgoingHNode.iterator(); iterator3.hasNext();) {
+ HNode outHNode = (HNode) iterator3.next();
+ childGraph.addEdge(parentHNode.getDescriptor(), outHNode.getDescriptor());
+ }
+
+ }
+
+ // copies nodes/edges from parent methods to overridden methods
+
+ for (Iterator iterator3 = childClassDescriptor.getMethods(); iterator3.hasNext();) {
+ MethodDescriptor childMethodDescriptor = (MethodDescriptor) iterator3.next();
+
+ MethodDescriptor parentMethodDesc =
+ getParentMethodDesc(childMethodDescriptor.getClassDesc(), childMethodDescriptor);
+
+ if (parentMethodDesc != null) {
+
+ HierarchyGraph parentMethodGraph = getHierarchyGraph(parentMethodDesc);
+ HierarchyGraph childMethodGraph = getHierarchyGraph(childMethodDescriptor);
+
+ // copies extra information from the parent hierarchy graph
+ Map<HNode, Set<HNode>> parentMethodMergeNodeMap =
+ parentMethodGraph.getMapHNodetoMergeSet();
+ Map<HNode, Set<HNode>> childMethodMergeNodeMap = childMethodGraph.getMapHNodetoMergeSet();
+
+ Set<HNode> methodKeySet = parentMethodMergeNodeMap.keySet();
+ for (Iterator iterator2 = methodKeySet.iterator(); iterator2.hasNext();) {
+ HNode parentKey = (HNode) iterator2.next();
+ if (!childMethodMergeNodeMap.containsKey(parentKey)) {
+ childMethodMergeNodeMap.put(parentKey, new HashSet<HNode>());
+ }
+ childMethodMergeNodeMap.get(parentKey).addAll(parentMethodMergeNodeMap.get(parentKey));
+ }
+
+ // copies nodes/edges from the parent method...
+ for (Iterator iterator2 = parentMethodGraph.getNodeSet().iterator(); iterator2.hasNext();) {
+ HNode parentHNode = (HNode) iterator2.next();
+
+ Set<HNode> parentIncomingHNode = parentMethodGraph.getIncomingNodeSet(parentHNode);
+ Set<HNode> parentOutgoingHNode = parentMethodGraph.getOutgoingNodeSet(parentHNode);
+
+ for (Iterator iterator4 = parentIncomingHNode.iterator(); iterator4.hasNext();) {
+ HNode inHNode = (HNode) iterator4.next();
+ childMethodGraph.addEdge(inHNode, parentHNode);
+ }
+
+ for (Iterator iterator4 = parentOutgoingHNode.iterator(); iterator4.hasNext();) {
+ HNode outHNode = (HNode) iterator4.next();
+ childMethodGraph.addEdge(parentHNode, outHNode);
+ }
+
+ }
+
+ }
+
+ }
+
+ DFSInheritanceTree(childClassDescriptor);
+ }
+
+ }
+
+ public MethodDescriptor getParentMethodDesc(ClassDescriptor classDesc, MethodDescriptor methodDesc) {
+
+ // Node<ClassDescriptor> childNode = inheritanceTree.getTreeNode(classDesc);
+ ClassDescriptor parentClassDesc = classDesc.getSuperDesc();
+ // Node<ClassDescriptor> parentNode = childNode.getParent();
+
+ if (parentClassDesc != null) {
+ // ClassDescriptor parentClassDesc = parentNode.getData();
+ if (parentClassDesc.getMethodTable().contains(methodDesc.getSymbol())) {
+ Set<MethodDescriptor> methodDescSet =
+ parentClassDesc.getMethodTable().getSet(methodDesc.getSymbol());
+ for (Iterator iterator = methodDescSet.iterator(); iterator.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator.next();
+ if (md.matches(methodDesc)) {
+ return md;
+ }
+ }
+ }
+
+ // traverse to the parent!
+ getParentMethodDesc(parentClassDesc, methodDesc);
+
+ }
+
+ return null;
+ }
+
private void checkReturnNodes() {
LinkedList<MethodDescriptor> methodDescList =
(LinkedList<MethodDescriptor>) toanalyze_methodDescList.clone();
System.out.println("SSJAVA: Updating a flow graph: " + md);
propagateFlowsFromCalleesWithNoCompositeLocation(md);
}
+
+ Set<FlowNode> nodeSet = getFlowGraph(md).getNodeSet();
+ for (Iterator iterator = nodeSet.iterator(); iterator.hasNext();) {
+ FlowNode flowNode = (FlowNode) iterator.next();
+ NTuple<Descriptor> descTuple = flowNode.getCurrentDescTuple();
+ NTuple<Location> locTuple = translateToLocTuple(md, descTuple);
+ for (int i = 0; i < locTuple.size(); i++) {
+ Location loc = locTuple.get(i);
+ if (loc.getDescriptor() instanceof ClassDescriptor) {
+ toanalyze_classDescSet.add((ClassDescriptor) loc.getDescriptor());
+ } else if (loc.getDescriptor() instanceof MethodDescriptor) {
+ toanalyze_classDescSet.add(((MethodDescriptor) loc.getDescriptor()).getClassDesc());
+ }
+ }
+
+ }
+
}
}
System.out.println("\nSSJAVA: Add addtional ordering constriants:");
MethodDescriptor methodEventLoopDesc = ssjava.getMethodContainingSSJavaLoop();
addAddtionalOrderingConstraints(methodEventLoopDesc);
+ // calculateReturnHolderLocation();
+ }
+
+ private void calculateReturnHolderLocation() {
+ LinkedList<MethodDescriptor> methodDescList =
+ (LinkedList<MethodDescriptor>) toanalyze_methodDescList.clone();
+
+ while (!methodDescList.isEmpty()) {
+ MethodDescriptor md = methodDescList.removeLast();
+
+ FlowGraph fg = getFlowGraph(md);
+ Set<FlowNode> nodeSet = fg.getNodeSet();
+ for (Iterator iterator = nodeSet.iterator(); iterator.hasNext();) {
+ FlowNode flowNode = (FlowNode) iterator.next();
+ if (flowNode.isFromHolder()) {
+ calculateCompositeLocationFromFlowGraph(md, flowNode);
+ }
+ }
+
+ }
}
private void updateCompositeLocationAssignments() {
while (!methodDescList.isEmpty()) {
MethodDescriptor md = methodDescList.removeLast();
- System.out.println("\n#updateCompositeLocationAssignments=" + md);
+ // System.out.println("\n#updateCompositeLocationAssignments=" + md);
FlowGraph flowGraph = getFlowGraph(md);
String locName;
if (!enclosingDesc.equals(GLOBALDESC)) {
LocationSummary locSummary = getLocationSummary(enclosingDesc);
- HierarchyGraph scGraph = getSkeletonCombinationHierarchyGraph(enclosingDesc);
+ // HierarchyGraph scGraph = getSkeletonCombinationHierarchyGraph(enclosingDesc);
+ HierarchyGraph scGraph = getSimpleHierarchyGraph(enclosingDesc);
if (scGraph != null) {
HNode curNode = scGraph.getCurrentHNode(nodeIdentifier);
+ System.out.println("nodeID=" + nodeIdentifier + " curNode=" + curNode
+ + " enclosingDesc=" + enclosingDesc);
if (curNode != null) {
nodeIdentifier = curNode.getName();
}
private void translateCompositeLocationAssignmentToFlowGraph(MethodDescriptor mdCaller) {
- System.out.println("\n\n###translateCompositeLocationAssignmentToFlowGraph mdCaller="
- + mdCaller);
+ // System.out.println("\n\n###translateCompositeLocationAssignmentToFlowGraph mdCaller="
+ // + mdCaller);
// First, assign a composite location to a node in the flow graph
GlobalFlowGraph callerGlobalFlowGraph = getSubGlobalFlowGraph(mdCaller);
}
- private CompositeLocation translateArgCompLocToParamCompLoc(MethodInvokeNode min,
- CompositeLocation argCompLoc) {
-
- System.out.println("--------translateArgCompLocToParamCompLoc argCompLoc=" + argCompLoc);
- MethodDescriptor mdCallee = min.getMethod();
- FlowGraph calleeFlowGraph = getFlowGraph(mdCallee);
-
- NTuple<Location> argLocTuple = argCompLoc.getTuple();
- Location argLocalLoc = argLocTuple.get(0);
-
- Map<Integer, NTuple<Descriptor>> mapIdxToArgTuple = mapMethodInvokeNodeToArgIdxMap.get(min);
- Set<Integer> idxSet = mapIdxToArgTuple.keySet();
- for (Iterator iterator2 = idxSet.iterator(); iterator2.hasNext();) {
- Integer idx = (Integer) iterator2.next();
-
- if (idx == 0 && !min.getMethod().isStatic()) {
- continue;
- }
-
- NTuple<Descriptor> argTuple = mapIdxToArgTuple.get(idx);
- if (argTuple.size() > 0 && argTuple.get(0).equals(argLocalLoc.getLocDescriptor())) {
- // it matches with the current argument composite location
- // so what is the corresponding parameter local descriptor?
- FlowNode paramNode = calleeFlowGraph.getParamFlowNode(idx);
- System.out.println("----------found paramNode=" + paramNode);
- NTuple<Descriptor> paramDescTuple = paramNode.getCurrentDescTuple();
-
- NTuple<Location> newParamTupleFromArgTuple = translateToLocTuple(mdCallee, paramDescTuple);
- for (int i = 1; i < argLocTuple.size(); i++) {
- newParamTupleFromArgTuple.add(argLocTuple.get(i));
- }
-
- System.out.println("-----------newParamTuple=" + newParamTupleFromArgTuple);
- return new CompositeLocation(newParamTupleFromArgTuple);
-
- }
- }
- return null;
- }
-
private void addAddtionalOrderingConstraints(MethodDescriptor mdCaller) {
// First, assign a composite location to a node in the flow graph
System.out.println("###RETURN COMP LOC=" + returnLoc);
NTuple<Location> returnLocTuple = returnLoc.getTuple();
NTuple<Descriptor> baseTuple = mapMethodInvokeNodeToBaseTuple.get(min);
+ System.out.println("###basetuple=" + baseTuple);
NTuple<Descriptor> newReturnTuple = baseTuple.clone();
for (int i = 1; i < returnLocTuple.size(); i++) {
newReturnTuple.add(returnLocTuple.get(i).getLocDescriptor());
}
System.out.println("###NEW RETURN TUPLE FOR CALLER=" + newReturnTuple);
+
+ FlowReturnNode holderNode = callerFlowGraph.getFlowReturnNode(min);
+ NodeTupleSet holderTupleSet =
+ getNodeTupleSetFromReturnNode(getFlowGraph(mdCaller), holderNode);
+
callerFlowGraph.getFlowReturnNode(min).setNewTuple(newReturnTuple);
+
+ // then need to remove old constraints
+ // TODO SAT
+ System.out.println("###REMOVE OLD CONSTRAINTS=" + holderNode);
+ for (Iterator<NTuple<Descriptor>> iter = holderTupleSet.iterator(); iter.hasNext();) {
+ NTuple<Descriptor> tupleFromHolder = iter.next();
+ Set<FlowEdge> holderOutEdge = callerFlowGraph.getOutEdgeSet(holderNode);
+ for (Iterator iterator2 = holderOutEdge.iterator(); iterator2.hasNext();) {
+ FlowEdge outEdge = (FlowEdge) iterator2.next();
+ NTuple<Descriptor> toberemovedTuple = outEdge.getEndTuple();
+ // System.out.println("---remove " + tupleFromHolder + " -> " + toberemovedTuple);
+ callerFlowGraph.removeEdge(tupleFromHolder, toberemovedTuple);
+ }
+ }
+
} else {
// if the return loc set was empty and later pcloc was connected to the return loc
// need to make sure that return loc reflects to this changes.
+ "-> globalParamLocTu!globalArgLocTuple.get(0).getLocDescriptor().equals(LITERALDESC)ple="
+ globalParamLocTuple);
hasChanges = true;
+
globalGraph.addValueFlowEdge(pcLocTuple, globalParamLocTuple);
}
}
baseLocTuple = translateToLocTuple(mdCaller, mapMethodInvokeNodeToBaseTuple.get(min));
}
- System.out.println("\n-#translate caller=" + mdCaller + " infer composite loc to callee="
- + mdCallee + " baseLocTuple=" + baseLocTuple);
- // System.out.println("-mapIdxToArgTuple=" + mapIdxToArgTuple);
- // System.out.println("-callerMapLocToCompLoc=" + callerMapLocToCompLoc);
+ // System.out.println("\n-#translate caller=" + mdCaller + " infer composite loc to callee="
+ // + mdCallee + " baseLocTuple=" + baseLocTuple);
Set<Location> keySet = callerMapLocToCompLoc.keySet();
for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
translateCompositeLocationToCallee(callerCompLoc, baseLocTuple, mdCallee);
calleeGlobalGraph.addMapLocationToInferCompositeLocation(key, newCalleeCompLoc);
- System.out.println("1---key=" + key + " callerCompLoc=" + callerCompLoc
- + " newCalleeCompLoc=" + newCalleeCompLoc);
- System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
+ // System.out.println("1---key=" + key + " callerCompLoc=" + callerCompLoc
+ // + " newCalleeCompLoc=" + newCalleeCompLoc);
+ // System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
if (!newCalleeCompLoc.get(0).getDescriptor().equals(mdCallee)) {
System.exit(0);
}
newCalleeCompLoc.addLocation(callerCompLoc.get(i));
}
calleeGlobalGraph.addMapLocationToInferCompositeLocation(key, newCalleeCompLoc);
- System.out.println("2---key=" + key + " callerCompLoc=" + callerCompLoc
- + " newCalleeCompLoc=" + newCalleeCompLoc);
- System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
+ // System.out.println("2---key=" + key + " callerCompLoc=" + callerCompLoc
+ // + " newCalleeCompLoc=" + newCalleeCompLoc);
+ // System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
} else {
int paramIdx = getParamIdx(callerCompLoc, mapIdxToArgTuple);
// so transfer the same composite location to the callee
if (!calleeGlobalGraph.contrainsInferCompositeLocationMapKey(key)) {
if (callerCompLoc.get(0).getDescriptor().equals(mdCallee)) {
- System.out.println("3---key=" + key + " callerCompLoc=" + callerCompLoc
- + " newCalleeCompLoc=" + callerCompLoc);
- System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
+ // System.out.println("3---key=" + key + " callerCompLoc=" + callerCompLoc
+ // + " newCalleeCompLoc=" + callerCompLoc);
+ // System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
calleeGlobalGraph.addMapLocationToInferCompositeLocation(key, callerCompLoc);
} else {
- System.out.println("3---SKIP key=" + key + " callerCompLoc=" + callerCompLoc);
+ // System.out.println("3---SKIP key=" + key + " callerCompLoc=" + callerCompLoc);
}
}
continue;
newCalleeCompLoc.addLocation(callerCompLoc.get(i));
}
calleeGlobalGraph.addMapLocationToInferCompositeLocation(key, newCalleeCompLoc);
- System.out.println("4---key=" + key + " callerCompLoc=" + callerCompLoc
- + " newCalleeCompLoc=" + newCalleeCompLoc);
- System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
-
- // System.out.println("-----argTuple=" + argTuple + " caller=" + mdCaller +
- // " callee="
- // + mdCallee);
- // System.out.println("-----paramIdx=" + paramIdx + " paramFlowNode=" + paramFlowNode);
+ // System.out.println("4---key=" + key + " callerCompLoc=" + callerCompLoc
+ // + " newCalleeCompLoc=" + newCalleeCompLoc);
+ // System.out.println("-----caller=" + mdCaller + " callee=" + mdCallee);
}
}
}
- // System.out.println("-----*AFTER TRANSLATING COMP LOC MAPPING, CALLEE MAPPING="
- // + calleeGlobalGraph.getMapLocationToInferCompositeLocation());
-
System.out.println("#ASSIGN COMP LOC TO CALLEE PARAMS: callee=" + mdCallee + " caller="
+ mdCaller);
// If the location of an argument has a composite location
if (!needToGenerateCompositeLocation(paramGlobalNode, curPrefix)) {
System.out.println("NO NEED TO GENERATE COMP LOC to " + paramGlobalNode
+ " with prefix=" + curPrefix);
- // System.out.println("prefixList=" + prefixList);
- // System.out.println("reachableNodeSet=" + reachableNodeSet);
return null;
}
MethodDescriptor md = (MethodDescriptor) targetLocalLoc.getDescriptor();
FlowGraph flowGraph = getFlowGraph(md);
+
FlowNode flowNode = flowGraph.getFlowNode(node.getDescTuple());
Set<FlowNode> reachableSet = flowGraph.getReachFlowNodeSetFrom(flowNode);
for (Iterator iterator = paramNodeSet.iterator(); iterator.hasNext();) {
FlowNode paramFlowNode = (FlowNode) iterator.next();
if (curPrefix.startsWith(translateToLocTuple(md, paramFlowNode.getDescTuple()))) {
- System.out.println("here1?!");
return true;
}
}
FlowNode paramNode = getFlowGraph(mdCallee).getParamFlowNode(paramIdx);
if (checkNodeReachToReturnNode(mdCallee, paramNode)) {
- System.out.println("here2?!");
return true;
}
mapMethodDescriptorToCompositeReturnCase.get(md).booleanValue();
if (hasCompReturnLocWithThis) {
if (checkNodeReachToReturnNode(md, flowNode)) {
- System.out.println("here3?!");
return true;
}
}
GlobalFlowNode subGlobalReachalbeNode = (GlobalFlowNode) iterator3.next();
if (subGlobalReachalbeNode.getLocTuple().get(0).getLocDescriptor().equals(md.getThis())) {
System.out.println("PREFIX FOUND=" + subGlobalReachalbeNode);
- System.out.println("here4?!");
return true;
}
}
}
}
- // System.out.println("flowGraph.getReturnNodeSet()=" + flowGraph.getReturnNodeSet());
- // System.out.println("flowGraph.contains(node.getDescTuple())="
- // + flowGraph.contains(node.getDescTuple()) + " flowGraph.getFlowNode(node.getDescTuple())="
- // + flowGraph.getFlowNode(node.getDescTuple()));reachableSet
-
- // if (flowGraph.contains(node.getDescTuple())
- // && flowGraph.getReturnNodeSet().contains(flowGraph.getFlowNode(node.getDescTuple()))) {
- // // return checkFlowNodeReturnThisField(flowGraph);
- // }
-
Location lastLocationOfPrefix = curPrefix.get(curPrefix.size() - 1);
// check whether prefix appears in the list of parameters
Set<MethodInvokeNode> minSet = mapMethodDescToMethodInvokeNodeSet.get(md);
+ System.out.println("$$$md=" + md + " minSet=" + minSet);
+ if (minSet == null) {
+ return false;
+ }
found: for (Iterator iterator = minSet.iterator(); iterator.hasNext();) {
MethodInvokeNode min = (MethodInvokeNode) iterator.next();
Map<Integer, NTuple<Descriptor>> map = mapMethodInvokeNodeToArgIdxMap.get(min);
if (globalReachlocTuple.get(i).equals(lastLocationOfPrefix)) {
System.out.println("ARG " + argTuple + " IS MATCHED WITH="
+ lastLocationOfPrefix);
- System.out.println("here5?!");
-
return true;
}
}
}
}
- // ClassDescriptor cd;
- // if (lastLocationOfPrefix.getLocDescriptor() instanceof VarDescriptor) {
- // cd = ((VarDescriptor) lastLocationOfPrefix.getLocDescriptor()).getType().getClassDesc();
- // } else {
- // // it is a field descriptor
- // cd = ((FieldDescriptor) lastLocationOfPrefix.getLocDescriptor()).getType().getClassDesc();
- // }
- //
- // GlobalFlowGraph subGlobalFlowGraph = getSubGlobalFlowGraph(md);
- // Set<GlobalFlowNode> subGlobalReachableSet = subGlobalFlowGraph.getReachableNodeSetFrom(node);
- //
- // System.out.println("TRY TO FIND lastLocationOfPrefix=" + lastLocationOfPrefix);
- // for (Iterator iterator2 = subGlobalReachableSet.iterator(); iterator2.hasNext();) {
- // GlobalFlowNode subGlobalReachalbeNode = (GlobalFlowNode) iterator2.next();
- // // NTuple<Location> locTuple = translateToLocTuple(md, reachalbeNode.getDescTuple());
- // NTuple<Location> locTuple = subGlobalReachalbeNode.getLocTuple();
- //
- // for (int i = 0; i < locTuple.size(); i++) {
- // if (locTuple.get(i).equals(lastLocationOfPrefix)) {
- // return true;
- // }
- // }
- //
- // Location lastLoc = locTuple.get(locTuple.size() - 1);
- // Descriptor enclosingDescriptor = lastLoc.getDescriptor();
- //
- // if (enclosingDescriptor != null && enclosingDescriptor.equals(cd)) {
- // System.out.println("# WHY HERE?");
- // System.out.println("subGlobalReachalbeNode=" + subGlobalReachalbeNode);
- // return true;
- // }
- // }
-
return false;
}
GlobalFlowNode inNode = (GlobalFlowNode) iterator.next();
NTuple<Location> inNodeTuple = inNode.getLocTuple();
- if (inNodeTuple.get(0).getLocDescriptor() instanceof InterDescriptor
- || inNodeTuple.get(0).getLocDescriptor().equals(GLOBALDESC)) {
- continue;
- }
+ if (inNodeTuple.get(0).getLocDescriptor() instanceof InterDescriptor
+ || inNodeTuple.get(0).getLocDescriptor().equals(GLOBALDESC)) {
+ continue;
+ }
+
+ for (int i = 1; i < inNodeTuple.size(); i++) {
+ NTuple<Location> prefix = inNodeTuple.subList(0, i);
+ if (!prefixList.contains(prefix)) {
+ prefixList.add(prefix);
+ }
+ }
+ }
+
+ 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;
+ }
+ }
+ });
+
+ return prefixList;
+
+ }
+
+ private CompositeLocation calculateCompositeLocationFromFlowGraph(MethodDescriptor md,
+ FlowNode node) {
+
+ System.out.println("#############################################################");
+ System.out.println("calculateCompositeLocationFromFlowGraph=" + node);
+
+ FlowGraph flowGraph = getFlowGraph(md);
+ // NTuple<Location> paramLocTuple = translateToLocTuple(md, paramNode.getDescTuple());
+ // GlobalFlowNode paramGlobalNode = subGlobalFlowGraph.getFlowNode(paramLocTuple);
+
+ List<NTuple<Location>> prefixList = calculatePrefixListFlowGraph(flowGraph, node);
+
+ // Set<GlobalFlowNode> reachableNodeSet =
+ // subGlobalFlowGraph.getReachableNodeSetByPrefix(paramGlobalNode.getLocTuple().get(0));
+ //
+ Set<FlowNode> reachableNodeSet =
+ flowGraph.getReachableSetFrom(node.getDescTuple().subList(0, 1));
+
+ // Set<GlobalFlowNode> reachNodeSet = globalFlowGraph.getReachableNodeSetFrom(node);
+
+ // System.out.println("node=" + node + " prefixList=" + prefixList);
+
+ 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 reachNode = (FlowNode) iterator2.next();
+ NTuple<Location> reachLocTuple = translateToLocTuple(md, reachNode.getCurrentDescTuple());
+ if (reachLocTuple.startsWith(curPrefix)) {
+ reachableCommonPrefixSet.add(reachLocTuple);
+ }
+ }
+ // System.out.println("reachableCommonPrefixSet=" + reachableCommonPrefixSet);
+
+ if (!reachableCommonPrefixSet.isEmpty()) {
+
+ MethodDescriptor curPrefixFirstElementMethodDesc =
+ (MethodDescriptor) curPrefix.get(0).getDescriptor();
+
+ Location curPrefixLocalLoc = curPrefix.get(0);
+
+ Location targetLocalLoc = new Location(md, node.getDescTuple().get(0));
+ // Location targetLocalLoc = paramGlobalNode.getLocTuple().get(0);
+
+ CompositeLocation newCompLoc = generateCompositeLocation(curPrefix);
+ System.out.println("NEED2ASSIGN COMP LOC TO " + node + " with prefix=" + curPrefix);
+ System.out.println("-targetLocalLoc=" + targetLocalLoc + " - newCompLoc=" + newCompLoc);
+
+ node.setCompositeLocation(newCompLoc);
+
+ return newCompLoc;
+
+ }
+
+ }
+ return null;
+ }
+
+ private List<NTuple<Location>> calculatePrefixListFlowGraph(FlowGraph graph, FlowNode node) {
+
+ System.out.println("\n##### calculatePrefixList node=" + node);
+
+ MethodDescriptor md = graph.getMethodDescriptor();
+ Set<FlowNode> incomingNodeSetPrefix =
+ graph.getIncomingNodeSetByPrefix(node.getDescTuple().get(0));
+ // System.out.println("---incomingNodeSetPrefix=" + incomingNodeSetPrefix);
+
+ Set<FlowNode> reachableNodeSetPrefix =
+ graph.getReachableSetFrom(node.getDescTuple().subList(0, 1));
+ // System.out.println("---reachableNodeSetPrefix=" + reachableNodeSetPrefix);
+
+ List<NTuple<Location>> prefixList = new ArrayList<NTuple<Location>>();
+
+ for (Iterator iterator = incomingNodeSetPrefix.iterator(); iterator.hasNext();) {
+ FlowNode inNode = (FlowNode) iterator.next();
+ NTuple<Location> inNodeTuple = translateToLocTuple(md, inNode.getCurrentDescTuple());
+
+ // if (inNodeTuple.get(0).getLocDescriptor() instanceof InterDescriptor
+ // || inNodeTuple.get(0).getLocDescriptor().equals(GLOBALDESC)) {
+ // continue;
+ // }
for (int i = 1; i < inNodeTuple.size(); i++) {
NTuple<Location> prefix = inNodeTuple.subList(0, i);
}
});
- // remove a prefix which is not suitable for generating composite location
- Location localVarLoc = node.getLocTuple().get(0);
- MethodDescriptor md = (MethodDescriptor) localVarLoc.getDescriptor();
- ClassDescriptor cd = md.getClassDesc();
-
- int idx = 0;
- Set<NTuple<Location>> toberemoved = new HashSet<NTuple<Location>>();
- // for (int i = 0; i < prefixList.size(); i++) {
- // NTuple<Location> prefixLocTuple = prefixList.get(i);
- // if (!containsClassDesc(cd, prefixLocTuple)) {
- // toberemoved.add(prefixLocTuple);
- // }
- // }
-
- // System.out.println("method class=" + cd + " toberemoved=" + toberemoved);
-
- prefixList.removeAll(toberemoved);
-
return prefixList;
}
- private boolean containsClassDesc(ClassDescriptor cd, NTuple<Location> prefixLocTuple) {
- for (int i = 0; i < prefixLocTuple.size(); i++) {
- Location loc = prefixLocTuple.get(i);
- Descriptor locDesc = loc.getLocDescriptor();
- if (locDesc != null) {
- ClassDescriptor type = getClassTypeDescriptor(locDesc);
- if (type != null && type.equals(cd)) {
- return true;
- }
- }
- }
- return false;
- }
-
private GlobalFlowGraph constructSubGlobalFlowGraph(FlowGraph flowGraph) {
MethodDescriptor md = flowGraph.getMethodDescriptor();
// here only keep the first element(method location) of the descriptor
// tuple
NTuple<Location> srcLocTuple = translateToLocTuple(md, srcDescTuple);
- // Location srcMethodLoc = srcLocTuple.get(0);
- // Descriptor srcVarDesc = srcMethodLoc.getLocDescriptor();
- // // if (flowGraph.isParamDesc(srcVarDesc) &&
- // (!srcVarDesc.equals(md.getThis()))) {
- // if (!srcVarDesc.equals(md.getThis())) {
- // srcLocTuple = new NTuple<Location>();
- // Location loc = new Location(md, srcVarDesc);
- // srcLocTuple.add(loc);
- // }
- //
NTuple<Location> dstLocTuple = translateToLocTuple(md, dstDescTuple);
- // Location dstMethodLoc = dstLocTuple.get(0);
- // Descriptor dstVarDesc = dstMethodLoc.getLocDescriptor();
- // if (!dstVarDesc.equals(md.getThis())) {
- // dstLocTuple = new NTuple<Location>();
- // Location loc = new Location(md, dstVarDesc);
- // dstLocTuple.add(loc);
- // }
globalGraph.addValueFlowEdge(srcLocTuple, dstLocTuple);
NTuple<Location> locTuple = new NTuple<Location>();
Descriptor enclosingDesc = md;
- System.out.println("md=" + md + " descTuple=" + descTuple);
for (int i = 0; i < descTuple.size(); i++) {
Descriptor desc = descTuple.get(i);
} else if (desc instanceof FieldDescriptor) {
enclosingDesc = ((FieldDescriptor) desc).getType().getClassDesc();
} else {
- // TODO: inter descriptor case
enclosingDesc = desc;
}
if (callerSrcNodeLocTuple != null && callerSrcNodeLocTuple.size() > 0) {
for (Iterator iterator2 = pcLocTupleSet.iterator(); iterator2.hasNext();) {
NTuple<Location> pcLocTuple = (NTuple<Location>) iterator2.next();
+
callerSubGlobalGraph.addValueFlowEdge(pcLocTuple, callerSrcNodeLocTuple);
}
}
GlobalFlowGraph calleeSubGlobalGraph = getSubGlobalFlowGraph(mdCallee);
GlobalFlowGraph callerSubGlobalGraph = getSubGlobalFlowGraph(mdCaller);
- // System.out.println("$addValueFlowFromCalleeNode calleeSrcNode=" + calleeSrcNode);
+ System.out.println("$addValueFlowFromCalleeNode calleeSrcNode=" + calleeSrcNode);
NTuple<Location> callerSrcNodeLocTuple =
translateToCallerLocTuple(min, mdCallee, mdCaller, calleeSrcNode.getLocTuple());
- // System.out.println("---callerSrcNodeLocTuple=" + callerSrcNodeLocTuple);
+ System.out.println("---callerSrcNodeLocTuple=" + callerSrcNodeLocTuple);
if (callerSrcNodeLocTuple != null && callerSrcNodeLocTuple.size() > 0) {
translateToCallerLocTuple(min, mdCallee, mdCaller, outNode.getLocTuple());
// System.out.println("outNode=" + outNode + " callerDstNodeLocTuple="
// + callerDstNodeLocTuple);
- if (callerDstNodeLocTuple != null) {
+ if (callerSrcNodeLocTuple != null && callerDstNodeLocTuple != null
+ && callerSrcNodeLocTuple.size() > 0 && callerDstNodeLocTuple.size() > 0) {
callerSubGlobalGraph.addValueFlowEdge(callerSrcNodeLocTuple, callerDstNodeLocTuple);
}
}
TypeDescriptor type = ((FieldDescriptor) desc).getType();
if (type.isArray()) {
- return false;
+ return !type.isPrimitive();
} else {
return type.isPtr();
}
} else if (desc instanceof VarDescriptor) {
TypeDescriptor type = ((VarDescriptor) desc).getType();
if (type.isArray()) {
- return false;
+ return !type.isPrimitive();
} else {
return type.isPtr();
}
System.out.println("\nSSJAVA: generate method summary: " + md);
FlowGraph flowGraph = getFlowGraph(md);
+ if (flowGraph == null) {
+ continue;
+ }
MethodSummary methodSummary = getMethodSummary(md);
HierarchyGraph scGraph = getSkeletonCombinationHierarchyGraph(md);
FlowNode flowNode = flowGraph.getParamFlowNode(paramIdx);
CompositeLocation inferredCompLoc =
updateCompositeLocation(flowNode.getCompositeLocation());
- // NTuple<Descriptor> descTuple = flowNode.getDescTuple();
- //
- // CompositeLocation assignedCompLoc = flowNode.getCompositeLocation();
- // CompositeLocation inferredCompLoc;
- // if (assignedCompLoc != null) {
- // inferredCompLoc = translateCompositeLocation(assignedCompLoc);
- // } else {
- // Descriptor locDesc = descTuple.get(0);
- // Location loc = new Location(md, locDesc.getSymbol());
- // loc.setLocDescriptor(locDesc);
- // inferredCompLoc = new CompositeLocation(loc);
- // }
System.out.println("-paramIdx=" + paramIdx + " infer=" + inferredCompLoc + " original="
+ flowNode.getCompositeLocation());
return false;
}
- private CompositeLocation translateCompositeLocation(CompositeLocation compLoc) {
- CompositeLocation newCompLoc = new CompositeLocation();
-
- // System.out.println("compLoc=" + compLoc);
- for (int i = 0; i < compLoc.getSize(); i++) {
- Location loc = compLoc.get(i);
- Descriptor enclosingDescriptor = loc.getDescriptor();
- Descriptor locDescriptor = loc.getLocDescriptor();
-
- HNode hnode = getHierarchyGraph(enclosingDescriptor).getHNode(locDescriptor);
- // System.out.println("-hnode=" + hnode + " from=" + locDescriptor +
- // " enclosingDescriptor="
- // + enclosingDescriptor);
- // System.out.println("-getLocationSummary(enclosingDescriptor)="
- // + getLocationSummary(enclosingDescriptor));
- String locName = getLocationSummary(enclosingDescriptor).getLocationName(hnode.getName());
- // System.out.println("-locName=" + locName);
- Location newLoc = new Location(enclosingDescriptor, locName);
- newLoc.setLocDescriptor(locDescriptor);
- newCompLoc.addLocation(newLoc);
- }
-
- return newCompLoc;
- }
-
private void debug_writeLattices() {
Set<Descriptor> keySet = mapDescriptorToSimpleLattice.keySet();
// HierarchyGraph simpleHierarchyGraph = getSimpleHierarchyGraph(key);
HierarchyGraph scHierarchyGraph = getSkeletonCombinationHierarchyGraph(key);
if (key instanceof ClassDescriptor) {
- writeInferredLatticeDotFile((ClassDescriptor) key, scHierarchyGraph, simpleLattice,
- "_SIMPLE");
+ // writeInferredLatticeDotFile((ClassDescriptor) key, scHierarchyGraph, simpleLattice,
+ // "_SIMPLE");
} else if (key instanceof MethodDescriptor) {
MethodDescriptor md = (MethodDescriptor) key;
- writeInferredLatticeDotFile(md.getClassDesc(), md, scHierarchyGraph, simpleLattice,
- "_SIMPLE");
+ // writeInferredLatticeDotFile(md.getClassDesc(), md, scHierarchyGraph, simpleLattice,
+ // "_SIMPLE");
}
LocationSummary ls = getLocationSummary(key);
Set<ClassDescriptor> cdKeySet = cd2lattice.keySet();
for (Iterator iterator = cdKeySet.iterator(); iterator.hasNext();) {
ClassDescriptor cd = (ClassDescriptor) iterator.next();
+ System.out.println("########cd=" + cd);
writeInferredLatticeDotFile((ClassDescriptor) cd, getSkeletonCombinationHierarchyGraph(cd),
cd2lattice.get(cd), "");
+ COUNT += cd2lattice.get(cd).getKeySet().size();
}
Set<MethodDescriptor> mdKeySet = md2lattice.keySet();
MethodDescriptor md = (MethodDescriptor) iterator.next();
writeInferredLatticeDotFile(md.getClassDesc(), md, getSkeletonCombinationHierarchyGraph(md),
md2lattice.get(md), "");
+ COUNT += md2lattice.get(md).getKeySet().size();
+ }
+ System.out.println("###COUNT=" + COUNT);
+ }
+
+ private void buildLattice(Descriptor desc) {
+ System.out.println("buildLattice=" + desc);
+ SSJavaLattice<String> simpleLattice = buildLattice.buildLattice(desc);
+
+ addMapDescToSimpleLattice(desc, simpleLattice);
+
+ HierarchyGraph simpleHierarchyGraph = getSimpleHierarchyGraph(desc);
+ System.out.println("\n## insertIntermediateNodesToStraightLine:"
+ + simpleHierarchyGraph.getName());
+ SSJavaLattice<String> lattice =
+ buildLattice.insertIntermediateNodesToStraightLine(desc, simpleLattice);
+ lattice.removeRedundantEdges();
+
+ if (desc instanceof ClassDescriptor) {
+ // field lattice
+ cd2lattice.put((ClassDescriptor) desc, lattice);
+ // ssjava.writeLatticeDotFile((ClassDescriptor) desc, null, lattice);
+ } else if (desc instanceof MethodDescriptor) {
+ // method lattice
+ md2lattice.put((MethodDescriptor) desc, lattice);
+ MethodDescriptor md = (MethodDescriptor) desc;
+ ClassDescriptor cd = md.getClassDesc();
+ // ssjava.writeLatticeDotFile(cd, md, lattice);
}
}
private void buildLattice() {
- BuildLattice buildLattice = new BuildLattice(this);
-
Set<Descriptor> keySet = mapDescriptorToCombineSkeletonHierarchyGraph.keySet();
for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
Descriptor desc = (Descriptor) iterator.next();
// ssjava.writeLatticeDotFile(cd, md, lattice);
}
- // System.out.println("\nSSJAVA: Insering Combination Nodes:" + desc);
- // HierarchyGraph skeletonGraph = getSkeletonHierarchyGraph(desc);
- // HierarchyGraph skeletonGraphWithCombinationNode =
- // skeletonGraph.clone();
- // skeletonGraphWithCombinationNode.setName(desc + "_SC");
- //
- // HierarchyGraph simpleHierarchyGraph = getSimpleHierarchyGraph(desc);
- // System.out.println("Identifying Combination Nodes:");
- // skeletonGraphWithCombinationNode.insertCombinationNodesToGraph(simpleHierarchyGraph);
- // skeletonGraphWithCombinationNode.simplifySkeletonCombinationHierarchyGraph();
- // mapDescriptorToCombineSkeletonHierarchyGraph.put(desc,
- // skeletonGraphWithCombinationNode);
+ }
+
+ }
+
+ private void buildLatticeInheritanceTree() {
+ // DFS the inheritance tree and propagates lattice nodes/edges from the parent to children
+ // Node<ClassDescriptor> rootNode = inheritanceTree.getRootNode();
+ DFSBuildLatticeInheritanceTree(rootClassDescriptor);
+ }
+
+ public Set<ClassDescriptor> getDirectSubClasses(ClassDescriptor parent) {
+
+ System.out.println("$$$toanalyze_classDescSet=" + toanalyze_classDescSet);
+ Set<ClassDescriptor> result = new HashSet<ClassDescriptor>();
+
+ Set<ClassDescriptor> children = tu.getDirectSubClasses(parent);
+ if (children == null) {
+ children = new HashSet<ClassDescriptor>();
+ }
+
+ for (Iterator iterator = children.iterator(); iterator.hasNext();) {
+ ClassDescriptor child = (ClassDescriptor) iterator.next();
+ if (toanalyze_classDescSet.contains(child)) {
+ result.add(child);
+ }
+ }
+
+ return result;
+ }
+
+ private void DFSBuildLatticeInheritanceTree(ClassDescriptor cd) {
+ // ClassDescriptor cd = node.getData();
+
+ ClassDescriptor parentClassDesc = cd.getSuperDesc();
+ if (parentClassDesc != null) {
+ Map<TripleItem, String> parentMap = buildLattice.getIntermediateLocMap(parentClassDesc);
+ buildLattice.setIntermediateLocMap(cd, parentMap);
+ }
+
+ buildLattice(cd);
+
+ for (Iterator iterator = cd.getMethods(); iterator.hasNext();) {
+ MethodDescriptor md = (MethodDescriptor) iterator.next();
+ if (toanalyze_methodDescList.contains(md)) {
+ MethodDescriptor parentMethodDesc = getParentMethodDesc(md.getClassDesc(), md);
+ if (parentMethodDesc != null) {
+ Map<TripleItem, String> parentMap = buildLattice.getIntermediateLocMap(parentMethodDesc);
+ buildLattice.setIntermediateLocMap(md, parentMap);
+ }
+ buildLattice(md);
+ }
+ }
+
+ // traverse children
+ Set<ClassDescriptor> children = getDirectSubClasses(cd);
+ for (Iterator iterator = children.iterator(); iterator.hasNext();) {
+ ClassDescriptor classDescriptor = (ClassDescriptor) iterator.next();
+ if (toanalyze_classDescSet.contains(classDescriptor)) {
+ DFSBuildLatticeInheritanceTree(classDescriptor);
+ }
+
}
}
Set<Descriptor> keySet = mapDescriptorToSkeletonHierarchyGraph.keySet();
for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
Descriptor desc = (Descriptor) iterator.next();
- System.out.println("\nSSJAVA: Insering Combination Nodes:" + desc);
+ System.out.println("\nSSJAVA: Inserting Combination Nodes:" + desc);
HierarchyGraph skeletonGraph = getSkeletonHierarchyGraph(desc);
HierarchyGraph skeletonGraphWithCombinationNode = skeletonGraph.clone();
skeletonGraphWithCombinationNode.setName(desc + "_SC");
HierarchyGraph simpleHierarchyGraph = getSimpleHierarchyGraph(desc);
- System.out.println("Identifying Combination Nodes:");
skeletonGraphWithCombinationNode.insertCombinationNodesToGraph(simpleHierarchyGraph);
- skeletonGraphWithCombinationNode.simplifySkeletonCombinationHierarchyGraph();
+ // skeletonGraphWithCombinationNode.insertCombinationNodesToGraph(simpleHierarchyGraph,
+ // skeletonGraph);
+ // skeletonGraphWithCombinationNode.simplifySkeletonCombinationHierarchyGraph();
+ skeletonGraphWithCombinationNode.removeRedundantEdges();
mapDescriptorToCombineSkeletonHierarchyGraph.put(desc, skeletonGraphWithCombinationNode);
}
}
HierarchyGraph skeletonGraph = simpleGraph.generateSkeletonGraph();
skeletonGraph.setMapDescToHNode(simpleGraph.getMapDescToHNode());
skeletonGraph.setMapHNodeToDescSet(simpleGraph.getMapHNodeToDescSet());
- skeletonGraph.simplifyHierarchyGraph();
- // skeletonGraph.combineRedundantNodes(false);
- // skeletonGraph.removeRedundantEdges();
+ skeletonGraph.simplifyHierarchyGraph(this);
mapDescriptorToSkeletonHierarchyGraph.put(desc, skeletonGraph);
}
}
+ private void recurUpAccumulateInheritanceDesc(Descriptor curDesc, Set<Descriptor> set) {
+
+ if (curDesc instanceof ClassDescriptor) {
+ ClassDescriptor cd = (ClassDescriptor) curDesc;
+ ClassDescriptor parentClassDesc = cd.getSuperDesc();
+ if (parentClassDesc != null && !parentClassDesc.equals(rootClassDescriptor)) {
+ set.add(parentClassDesc);
+ recurUpAccumulateInheritanceDesc(parentClassDesc, set);
+ }
+ } else {
+ MethodDescriptor md = (MethodDescriptor) curDesc;
+ ClassDescriptor cd = md.getClassDesc();
+
+ // traverse up
+ ClassDescriptor parentClassDesc = cd.getSuperDesc();
+ if (parentClassDesc != null && !parentClassDesc.equals(rootClassDescriptor)) {
+
+ Set<MethodDescriptor> methodDescSet =
+ parentClassDesc.getMethodTable().getSet(md.getSymbol());
+ for (Iterator iterator = methodDescSet.iterator(); iterator.hasNext();) {
+ MethodDescriptor parentMethodDesc = (MethodDescriptor) iterator.next();
+ if (parentMethodDesc.matches(md)) {
+ set.add(parentMethodDesc);
+ recurUpAccumulateInheritanceDesc(parentMethodDesc, set);
+ }
+ }
+ }
+
+ }
+
+ }
+
+ private void recurDownAccumulateInheritanceDesc(Descriptor curDesc, Set<Descriptor> set) {
+
+ if (curDesc instanceof ClassDescriptor) {
+ ClassDescriptor cd = (ClassDescriptor) curDesc;
+ ClassDescriptor parentClassDesc = cd.getSuperDesc();
+ Set<ClassDescriptor> directSubClasses = tu.getDirectSubClasses(cd);
+ for (Iterator iterator = directSubClasses.iterator(); iterator.hasNext();) {
+ ClassDescriptor child = (ClassDescriptor) iterator.next();
+ recurDownAccumulateInheritanceDesc(child, set);
+ }
+ } else {
+ MethodDescriptor md = (MethodDescriptor) curDesc;
+ ClassDescriptor cd = md.getClassDesc();
+
+ // traverse down
+ Set<ClassDescriptor> directSubClasses = tu.getDirectSubClasses(cd);
+ for (Iterator iterator = directSubClasses.iterator(); iterator.hasNext();) {
+ ClassDescriptor child = (ClassDescriptor) iterator.next();
+
+ Set<MethodDescriptor> methodDescSet = child.getMethodTable().getSet(md.getSymbol());
+ for (Iterator iterator2 = methodDescSet.iterator(); iterator2.hasNext();) {
+ MethodDescriptor childMethodDesc = (MethodDescriptor) iterator2.next();
+ if (childMethodDesc.matches(md)) {
+ set.add(childMethodDesc);
+ recurDownAccumulateInheritanceDesc(childMethodDesc, set);
+ }
+ }
+ }
+
+ }
+
+ }
+
+ private void accumulateInheritanceDesc(Descriptor curDesc, Set<Descriptor> set) {
+
+ recurUpAccumulateInheritanceDesc(curDesc, set);
+ recurDownAccumulateInheritanceDesc(curDesc, set);
+
+ }
+
+ public boolean isValidMergeInheritanceCheck(Descriptor desc, Set<HNode> mergeSet) {
+
+ // set up inheritance chain set...
+ Set<Descriptor> inheritanceDescSet = new HashSet<Descriptor>();
+ recurUpAccumulateInheritanceDesc(desc, inheritanceDescSet);
+
+ nextgraph: for (Iterator iterator = inheritanceDescSet.iterator(); iterator.hasNext();) {
+ Descriptor inheritDesc = (Descriptor) iterator.next();
+
+ if (!desc.equals(inheritDesc)) {
+ HierarchyGraph graph = getSkeletonCombinationHierarchyGraph(inheritDesc);
+
+ // first check whether this graph includes all elements of the merge set
+ for (Iterator iterator2 = mergeSet.iterator(); iterator2.hasNext();) {
+ HNode node = (HNode) iterator2.next();
+ if (!graph.contains(node)) {
+ continue nextgraph;
+ }
+ }
+
+ HNode firstNode = mergeSet.iterator().next();
+
+ Set<HNode> incomingNode = graph.getIncomingNodeSet(firstNode);
+ Set<HNode> outgoingNode = graph.getOutgoingNodeSet(firstNode);
+
+ for (Iterator iterator2 = mergeSet.iterator(); iterator2.hasNext();) {
+ HNode node = (HNode) iterator2.next();
+
+ if (!graph.getIncomingNodeSet(node).equals(incomingNode)
+ || !graph.getOutgoingNodeSet(node).equals(outgoingNode)) {
+ return false;
+ }
+
+ }
+ }
+
+ }
+
+ return true;
+ }
+
private void debug_writeHierarchyDotFiles() {
Set<Descriptor> keySet = mapDescriptorToHierarchyGraph.keySet();
Descriptor desc = (Descriptor) iterator.next();
getHierarchyGraph(desc).writeGraph();
getSimpleHierarchyGraph(desc).writeGraph();
+ getSimpleHierarchyGraph(desc).writeGraph(true);
}
}
private void constructHierarchyGraph() {
+ LinkedList<MethodDescriptor> methodDescList =
+ (LinkedList<MethodDescriptor>) toanalyze_methodDescList.clone();
+
+ while (!methodDescList.isEmpty()) {
+ MethodDescriptor md = methodDescList.removeLast();
+ if (state.SSJAVADEBUG) {
+ HierarchyGraph hierarchyGraph = new HierarchyGraph(md);
+ System.out.println();
+ System.out.println("SSJAVA: Construcing the hierarchy graph from " + md);
+ constructHierarchyGraph(md, hierarchyGraph);
+ mapDescriptorToHierarchyGraph.put(md, hierarchyGraph);
+
+ }
+ }
+
+ setupToAnalyze();
+ while (!toAnalyzeIsEmpty()) {
+ ClassDescriptor cd = toAnalyzeNext();
+ HierarchyGraph graph = getHierarchyGraph(cd);
+ for (Iterator iter = cd.getFields(); iter.hasNext();) {
+ FieldDescriptor fieldDesc = (FieldDescriptor) iter.next();
+ if (!(fieldDesc.isStatic() && fieldDesc.isFinal())) {
+ graph.getHNode(fieldDesc);
+ }
+ }
+ }
+
+ Set<Descriptor> keySet = mapDescriptorToHierarchyGraph.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ Descriptor key = (Descriptor) iterator.next();
+ HierarchyGraph graph = getHierarchyGraph(key);
+
+ Set<HNode> nodeToBeConnected = new HashSet<HNode>();
+ for (Iterator iterator2 = graph.getNodeSet().iterator(); iterator2.hasNext();) {
+ HNode node = (HNode) iterator2.next();
+ if (!node.isSkeleton() && !node.isCombinationNode()) {
+ if (graph.getIncomingNodeSet(node).size() == 0) {
+ nodeToBeConnected.add(node);
+ }
+ }
+ }
+
+ for (Iterator iterator2 = nodeToBeConnected.iterator(); iterator2.hasNext();) {
+ HNode node = (HNode) iterator2.next();
+ System.out.println("NEED TO BE CONNECTED TO TOP=" + node);
+ graph.addEdge(graph.getHNode(TOPDESC), node);
+ }
+
+ }
+
+ }
+
+ private void constructHierarchyGraph2() {
+
// do fixed-point analysis
LinkedList<MethodDescriptor> descriptorListToAnalyze = ssjava.getSortedDescriptors();
NTuple<Descriptor> srcCurTuple = srcNode.getCurrentDescTuple();
NTuple<Descriptor> dstCurTuple = dstNode.getCurrentDescTuple();
+ // //////////////////////////
+ // inheritance check
+ if (mapMethodDescToHighestOverriddenMethodDesc.containsKey(md)) {
+
+ MethodDescriptor highestOverriddenMethodDesc =
+ mapMethodDescToHighestOverriddenMethodDesc.get(md);
+
+ if (srcCurTuple.get(srcCurTuple.size() - 1).getSymbol().startsWith(PCLOC)) {
+ }
+
+ }
+ // //////////////////////////
+
System.out.println("-srcCurTuple=" + srcCurTuple + " dstCurTuple=" + dstCurTuple
+ " srcNode=" + srcNode + " dstNode=" + dstNode);
+ // srcCurTuple = translateBaseTuple(srcNode, srcCurTuple);
+ // dstCurTuple = translateBaseTuple(dstNode, dstCurTuple);
+
if ((srcCurTuple.size() > 1 && dstCurTuple.size() > 1)
&& srcCurTuple.get(0).equals(dstCurTuple.get(0))) {
}
+ private NTuple<Descriptor> translateBaseTuple(FlowNode flowNode, NTuple<Descriptor> inTuple) {
+
+ if (flowNode.getBaseTuple() != null) {
+
+ NTuple<Descriptor> translatedTuple = new NTuple<Descriptor>();
+
+ NTuple<Descriptor> baseTuple = flowNode.getBaseTuple();
+
+ for (int i = 0; i < baseTuple.size(); i++) {
+ translatedTuple.add(baseTuple.get(i));
+ }
+
+ for (int i = 1; i < inTuple.size(); i++) {
+ translatedTuple.add(inTuple.get(i));
+ }
+
+ System.out.println("------TRANSLATED " + inTuple + " -> " + translatedTuple);
+ return translatedTuple;
+
+ } else {
+ return inTuple;
+ }
+
+ }
+
private MethodSummary getMethodSummary(MethodDescriptor md) {
if (!mapDescToLocationSummary.containsKey(md)) {
mapDescToLocationSummary.put(md, new MethodSummary(md));
if (!paramDescNOTHavingInFlowSet.contains(node.getCurrentDescTuple().get(0))) {
flowNodeLowerthanPCLocSet.add(node);
fg.addValueFlowEdge(pcDescTuple, node.getDescTuple());
+
subGlobalFlowGraph.addValueFlowEdge(pcLocTuple,
translateToLocTuple(md, node.getDescTuple()));
}
System.out.println("#########################################");
for (Iterator iterator = flowNodeLowerthanPCLocSet.iterator(); iterator.hasNext();) {
FlowNode lowerNode = (FlowNode) iterator.next();
- if (lowerNode.getCompositeLocation() == null) {
+ if (lowerNode.getDescTuple().size() == 1 && lowerNode.getCompositeLocation() == null) {
NTuple<Location> lowerLocTuple = translateToLocTuple(md, lowerNode.getDescTuple());
CompositeLocation newComp =
calculateCompositeLocationFromSubGlobalGraph(md, lowerNode);
}
}
- private boolean coversAllParamters(MethodDescriptor md, FlowGraph fg,
- Set<NTuple<Location>> paramLocTupleHavingInFlowSet) {
+ private int countFirstDescriptorSetSize(Set<NTuple<Location>> set) {
- int numParam = fg.getNumParameters();
- int size = paramLocTupleHavingInFlowSet.size();
+ Set<Descriptor> descSet = new HashSet<Descriptor>();
- if (!md.isStatic()) {
+ for (Iterator iterator = set.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTuple = (NTuple<Location>) iterator.next();
+ descSet.add(locTuple.get(0).getLocDescriptor());
+ }
- // if the method is not static && there is a parameter composite location &&
- // it is started with 'this',
- // paramLocTupleHavingInFlowSet need to have 'this' parameter.
+ return descSet.size();
+ }
- FlowNode thisParamNode = fg.getParamFlowNode(0);
- NTuple<Location> thisParamLocTuple =
- translateToLocTuple(md, thisParamNode.getCurrentDescTuple());
+ private boolean coversAllParamters(MethodDescriptor md, FlowGraph fg,
+ Set<NTuple<Location>> paramLocTupleHavingInFlowSet) {
- if (!paramLocTupleHavingInFlowSet.contains(thisParamLocTuple)) {
+ int numParam = fg.getNumParameters();
+ // int size = paramLocTupleHavingInFlowSet.size();
+ int size = countFirstDescriptorSetSize(paramLocTupleHavingInFlowSet);
- for (Iterator iterator = paramLocTupleHavingInFlowSet.iterator(); iterator.hasNext();) {
- NTuple<Location> paramTuple = (NTuple<Location>) iterator.next();
- if (paramTuple.size() > 1 && paramTuple.get(0).getLocDescriptor().equals(md.getThis())) {
- // paramLocTupleHavingInFlowSet.add(thisParamLocTuple);
- // break;
- size++;
- }
- }
+ System.out.println("numParam=" + numParam + " size=" + size);
- }
- }
+ // if (!md.isStatic()) {
+ //
+ // // if the method is not static && there is a parameter composite location &&
+ // // it is started with 'this',
+ // // paramLocTupleHavingInFlowSet need to have 'this' parameter.
+ //
+ // FlowNode thisParamNode = fg.getParamFlowNode(0);
+ // NTuple<Location> thisParamLocTuple =
+ // translateToLocTuple(md, thisParamNode.getCurrentDescTuple());
+ //
+ // if (!paramLocTupleHavingInFlowSet.contains(thisParamLocTuple)) {
+ //
+ // for (Iterator iterator = paramLocTupleHavingInFlowSet.iterator(); iterator.hasNext();) {
+ // NTuple<Location> paramTuple = (NTuple<Location>) iterator.next();
+ // if (paramTuple.size() > 1 && paramTuple.get(0).getLocDescriptor().equals(md.getThis())) {
+ // // paramLocTupleHavingInFlowSet.add(thisParamLocTuple);
+ // // break;
+ // size++;
+ // }
+ // }
+ //
+ // }
+ // }
if (size == numParam) {
return true;
return false;
}
- private SSJavaLattice<String> getLattice(Descriptor d) {
+ public SSJavaLattice<String> getLattice(Descriptor d) {
if (d instanceof MethodDescriptor) {
return getMethodLattice((MethodDescriptor) d);
} else {
while (!toAnalyzeIsEmpty()) {
ClassDescriptor cd = toAnalyzeNext();
+ if (cd.getClassName().equals("Object")) {
+ rootClassDescriptor = cd;
+ // inheritanceTree = new InheritanceTree<ClassDescriptor>(cd);
+ }
+
setupToAnalazeMethod(cd);
temp_toanalyzeMethodList.removeAll(visited);
newImplicitTupleSet.addTupleSet(implicitFlowTupleSet);
newImplicitTupleSet.addTupleSet(condTupleNode);
- System.out.println("A5");
newImplicitTupleSet.addGlobalFlowTupleSet(implicitFlowTupleSet.getGlobalLocTupleSet());
newImplicitTupleSet.addGlobalFlowTupleSet(condTupleNode.getGlobalLocTupleSet());
private void analyzeFlowIfStatementNode(MethodDescriptor md, SymbolTable nametable,
IfStatementNode isn, NodeTupleSet implicitFlowTupleSet) {
- System.out.println("analyzeFlowIfStatementNode=" + isn.printNode(0));
+ // System.out.println("analyzeFlowIfStatementNode=" + isn.printNode(0));
NodeTupleSet condTupleNode = new NodeTupleSet();
analyzeFlowExpressionNode(md, nametable, isn.getCondition(), condTupleNode, null,
// translateToLocTuple(md, callerImplicitTuple));
// }
// }
- System.out.println("A4");
newImplicitTupleSet.addGlobalFlowTupleSet(condTupleNode.getGlobalLocTupleSet());
analyzeFlowBlockNode(md, nametable, isn.getTrueBlock(), newImplicitTupleSet);
fn.setDeclarationNode();
if (dn.getExpression() != null) {
+ System.out.println("-analyzeFlowDeclarationNode=" + dn.printNode(0));
NodeTupleSet nodeSetRHS = new NodeTupleSet();
analyzeFlowExpressionNode(md, nametable, dn.getExpression(), nodeSetRHS, null,
GlobalFlowGraph globalFlowGraph = getSubGlobalFlowGraph(md);
for (Iterator<NTuple<Location>> iterator = nodeSetRHS.globalIterator(); iterator.hasNext();) {
NTuple<Location> calleeReturnLocTuple = iterator.next();
+
globalFlowGraph.addValueFlowEdge(calleeReturnLocTuple, translateToLocTuple(md, tupleLHS));
}
+ for (Iterator<NTuple<Location>> iterator = implicitFlowTupleSet.globalIterator(); iterator
+ .hasNext();) {
+ NTuple<Location> implicitGlobalTuple = iterator.next();
+
+ globalFlowGraph.addValueFlowEdge(implicitGlobalTuple, translateToLocTuple(md, tupleLHS));
+ }
+
+ System.out.println("-nodeSetRHS=" + nodeSetRHS);
+ System.out.println("-implicitFlowTupleSet=" + implicitFlowTupleSet);
+
}
}
private void analyzeFlowTertiaryNode(MethodDescriptor md, SymbolTable nametable, TertiaryNode tn,
NodeTupleSet nodeSet, NodeTupleSet implicitFlowTupleSet) {
- System.out.println("analyzeFlowTertiaryNode=" + tn.printNode(0));
+ // System.out.println("analyzeFlowTertiaryNode=" + tn.printNode(0));
NodeTupleSet tertiaryTupleNode = new NodeTupleSet();
analyzeFlowExpressionNode(md, nametable, tn.getCond(), tertiaryTupleNode, null,
newImplicitTupleSet.addTuple(interTuple);
}
- System.out.println("A7");
newImplicitTupleSet.addGlobalFlowTupleSet(tertiaryTupleNode.getGlobalLocTupleSet());
System.out.println("---------newImplicitTupleSet=" + newImplicitTupleSet);
analyzeFlowExpressionNode(md, nametable, tn.getFalseExpr(), tertiaryTupleNode, null,
newImplicitTupleSet, false);
- System.out.println("A8");
nodeSet.addGlobalFlowTupleSet(tertiaryTupleNode.getGlobalLocTupleSet());
nodeSet.addTupleSet(tertiaryTupleNode);
assert (baseNodeSet.size() == 1);
NTuple<Descriptor> baseTuple = baseNodeSet.iterator().next();
+ if (baseTuple.get(0) instanceof InterDescriptor) {
+ if (baseTuple.size() > 1) {
+ throw new Error();
+ }
+ FlowNode interNode = getFlowGraph(mdCaller).getFlowNode(baseTuple);
+ baseTuple = translateBaseTuple(interNode, baseTuple);
+ }
mapMethodInvokeNodeToBaseTuple.put(min, baseTuple);
if (!min.getMethod().isStatic()) {
// nodeSet.addTuple(inFlowTuple);
System.out.println("1CREATE A NEW TUPLE=" + inFlowTuple + " from="
+ mdCallee.getThis());
- tupleSet.addTuple(inFlowTuple);
+ // tupleSet.addTuple(inFlowTuple);
+ tupleSet.addTuple(baseTuple);
} else {
// TODO
System.out.println("returnNode=" + returnNode);
}
if (mdCallee.getReturnType() != null && !mdCallee.getReturnType().isVoid()) {
- FlowReturnNode setNode = getFlowGraph(mdCaller).createReturnNode(min);
- System.out.println("ADD TUPLESET=" + tupleSet + " to returnnode=" + setNode);
+ FlowReturnNode returnHolderNode = getFlowGraph(mdCaller).createReturnNode(min);
if (needToGenerateInterLoc(tupleSet)) {
System.out.println("20");
FlowGraph fg = getFlowGraph(mdCaller);
- NTuple<Descriptor> interTuple = fg.createIntermediateNode().getDescTuple();
+ FlowNode interNode = fg.createIntermediateNode();
+ interNode.setFormHolder(true);
+
+ NTuple<Descriptor> interTuple = interNode.getDescTuple();
for (Iterator iterator = tupleSet.iterator(); iterator.hasNext();) {
NTuple<Descriptor> tuple = (NTuple<Descriptor>) iterator.next();
}
}
- setNode.addTuple(interTuple);
+ returnHolderNode.addTuple(interTuple);
+
+ nodeSet.addTuple(interTuple);
+ System.out.println("ADD TUPLESET=" + interTuple + " to returnnode=" + returnHolderNode);
+
} else {
- setNode.addTupleSet(tupleSet);
+ returnHolderNode.addTupleSet(tupleSet);
+ System.out.println("ADD TUPLESET=" + tupleSet + " to returnnode=" + returnHolderNode);
}
+ // setNode.addTupleSet(tupleSet);
+ // NodeTupleSet setFromReturnNode=new NodeTupleSet();
+ // setFromReturnNode.addTuple(tuple);
+
+ NodeTupleSet holderTupleSet =
+ getNodeTupleSetFromReturnNode(getFlowGraph(mdCaller), returnHolderNode);
- nodeSet.addTuple(setNode.getDescTuple());
+ System.out.println("HOLDER TUPLe SET=" + holderTupleSet);
+ nodeSet.addTupleSet(holderTupleSet);
+ nodeSet.addTuple(returnHolderNode.getDescTuple());
}
// propagateFlowsFromCallee(min, md, min.getMethod());
}
+ private NodeTupleSet getNodeTupleSetFromReturnNode(FlowGraph fg, FlowReturnNode node) {
+ NodeTupleSet nts = new NodeTupleSet();
+
+ Set<NTuple<Descriptor>> returnSet = node.getReturnTupleSet();
+
+ for (Iterator iterator = returnSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> tuple = (NTuple<Descriptor>) iterator.next();
+ FlowNode flowNode = fg.getFlowNode(tuple);
+ if (flowNode instanceof FlowReturnNode) {
+ returnSet.addAll(recurGetNode(fg, (FlowReturnNode) flowNode));
+ } else {
+ returnSet.add(tuple);
+ }
+ }
+
+ for (Iterator iterator = returnSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> nTuple = (NTuple<Descriptor>) iterator.next();
+ nts.addTuple(nTuple);
+ }
+
+ return nts;
+
+ }
+
+ private Set<NTuple<Descriptor>> recurGetNode(FlowGraph fg, FlowReturnNode rnode) {
+
+ Set<NTuple<Descriptor>> tupleSet = new HashSet<NTuple<Descriptor>>();
+
+ Set<NTuple<Descriptor>> returnSet = rnode.getReturnTupleSet();
+ for (Iterator iterator = returnSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> tuple = (NTuple<Descriptor>) iterator.next();
+ FlowNode flowNode = fg.getFlowNode(tuple);
+ if (flowNode instanceof FlowReturnNode) {
+ tupleSet.addAll(recurGetNode(fg, (FlowReturnNode) flowNode));
+ }
+ tupleSet.add(tuple);
+ }
+
+ return tupleSet;
+ }
+
private NTuple<Descriptor> generateArgTuple(MethodDescriptor mdCaller, NodeTupleSet argTupleSet) {
int size = 0;
}
// Set<FlowNode> reachableSet = fg.getReachFlowNodeSetFrom(inNode);
Set<FlowNode> reachableSet = fg.getReachableSetFrom(inNode.getDescTuple());
- System.out.println("inNode=" + inNode + " reachalbeSet=" + reachableSet);
+ // System.out.println("inNode=" + inNode + " reachalbeSet=" + reachableSet);
for (Iterator iterator = reachableSet.iterator(); iterator.hasNext();) {
FlowNode fn = (FlowNode) iterator.next();
NTuple<Location> calleeReturnLocTuple = iterator.next();
for (Iterator<NTuple<Descriptor>> arrIter = expNodeTupleSet.iterator(); arrIter.hasNext();) {
NTuple<Descriptor> arrTuple = arrIter.next();
+
globalFlowGraph.addValueFlowEdge(calleeReturnLocTuple, translateToLocTuple(md, arrTuple));
}
}
if (needToGenerateInterLoc(nodeSetArrayAccessExp)) {
System.out.println("1");
- NTuple<Descriptor> interTuple = getFlowGraph(md).createIntermediateNode().getDescTuple();
+ FlowNode interNode = getFlowGraph(md).createIntermediateNode();
+ NTuple<Descriptor> interTuple = interNode.getDescTuple();
for (Iterator<NTuple<Descriptor>> iter = nodeSetArrayAccessExp.iterator(); iter.hasNext();) {
NTuple<Descriptor> higherTuple = iter.next();
if (base != null) {
fg.addMapInterLocNodeToEnclosingDescriptor(interTuple.get(0),
getClassTypeDescriptor(base.get(base.size() - 1)));
+ interNode.setBaseTuple(base);
}
}
}
- System.out.println("A1");
nodeSet.addGlobalFlowTupleSet(idxNodeTupleSet.getGlobalLocTupleSet());
nodeSet.addTupleSet(nodeSetArrayAccessExp);
nodeSet.addTupleSet(leftOpSet);
nodeSet.addTupleSet(rightOpSet);
- System.out.println("A6");
nodeSet.addGlobalFlowTupleSet(leftOpSet.getGlobalLocTupleSet());
nodeSet.addGlobalFlowTupleSet(rightOpSet.getGlobalLocTupleSet());
for (Iterator<NTuple<Location>> iterator = idxNodeTupleSet.globalIterator(); iterator
.hasNext();) {
NTuple<Location> calleeReturnLocTuple = iterator.next();
+
globalFlowGraph.addValueFlowEdge(calleeReturnLocTuple,
translateToLocTuple(md, flowFieldTuple));
}
nodeSet.clear();
flowFieldTuple = interTuple;
}
- System.out.println("A3");
nodeSet.addGlobalFlowTupleSet(idxNodeTupleSet.getGlobalLocTupleSet());
}
NTuple<Descriptor> callerLHSTuple = iter2.next();
System.out.println("$$$ GLOBAL FLOW ADD=" + calleeReturnLocTuple + " -> "
+ translateToLocTuple(md, callerLHSTuple));
+
globalFlowGraph.addValueFlowEdge(calleeReturnLocTuple,
translateToLocTuple(md, callerLHSTuple));
}
NTuple<Location> calleeReturnLocTuple = iterator.next();
for (Iterator<NTuple<Descriptor>> iter2 = nodeSetLHS.iterator(); iter2.hasNext();) {
NTuple<Descriptor> callerLHSTuple = iter2.next();
+
globalFlowGraph.addValueFlowEdge(calleeReturnLocTuple,
translateToLocTuple(md, callerLHSTuple));
System.out.println("$$$ GLOBAL FLOW PCLOC ADD=" + calleeReturnLocTuple + " -> "
if (nodeSet != null) {
nodeSet.addTupleSet(nodeSetLHS);
- System.out.println("A2");
nodeSet.addGlobalFlowTupleSet(nodeSetLHS.getGlobalLocTupleSet());
}
}
String fileName = "lattice_";
if (md != null) {
fileName +=
- /* cd.getSymbol().replaceAll("[\\W_]", "") + "_" + */md.toString().replaceAll("[\\W_]", "");
+ cd.getSymbol().replaceAll("[\\W_]", "") + "_" + md.toString().replaceAll("[\\W_]", "");
} else {
fileName += cd.getSymbol().replaceAll("[\\W_]", "");
}
fileName += nameSuffix;
+ System.out.println("***lattice=" + fileName + " setsize=" + locOrder.getKeySet().size());
+
Set<Pair<String, String>> pairSet = locOrder.getOrderingPairSet();
Set<String> addedLocSet = new HashSet<String>();