package Analysis.SSJava;
-import java.io.BufferedWriter;
-import java.io.FileWriter;
-import java.io.IOException;
import java.util.Enumeration;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Set;
import java.util.Stack;
+import Analysis.Liveness;
import Analysis.CallGraph.CallGraph;
import Analysis.Loops.LoopFinder;
-import IR.ClassDescriptor;
import IR.Descriptor;
import IR.FieldDescriptor;
import IR.MethodDescriptor;
import IR.Flat.FlatFieldNode;
import IR.Flat.FlatLiteralNode;
import IR.Flat.FlatMethod;
+import IR.Flat.FlatNew;
import IR.Flat.FlatNode;
import IR.Flat.FlatOpNode;
import IR.Flat.FlatSetElementNode;
import IR.Flat.FlatSetFieldNode;
import IR.Flat.TempDescriptor;
import IR.Tree.Modifiers;
-import Util.Pair;
public class DefinitelyWrittenCheck {
State state;
CallGraph callGraph;
- int debugcount = 0;
+ Liveness liveness;
- // maps a descriptor to its known dependents: namely
- // methods or tasks that call the descriptor's method
- // AND are part of this analysis (reachable from main)
- private Hashtable<Descriptor, Set<MethodDescriptor>> mapDescriptorToSetDependents;
+ int debugcount = 0;
// maps a flat node to its WrittenSet: this keeps all heap path overwritten
// previously.
// alias.
private Hashtable<Descriptor, NTuple<Descriptor>> mapHeapPath;
+ // maps a temp descriptor to its composite location
+ private Hashtable<TempDescriptor, NTuple<Location>> mapDescriptorToLocationPath;
+
// maps a flat method to the READ that is the set of heap path that is
// expected to be written before method invocation
private Hashtable<FlatMethod, Set<NTuple<Descriptor>>> mapFlatMethodToReadSet;
// is overwritten on every possible path during method invocation
private Hashtable<FlatMethod, Set<NTuple<Descriptor>>> mapFlatMethodToMustWriteSet;
+ // maps a flat method to the DELETE SET that is a set of heap path to shared
+ // locations that are
+ // written to but not overwritten by the higher value
+ private Hashtable<FlatMethod, SharedLocMap> mapFlatMethodToDeleteSet;
+
+ private Hashtable<FlatMethod, SharedLocMap> mapFlatMethodToMustClearMap;
+
+ // maps a flat method to the S SET that is a set of heap path to shared
+ // locations that are overwritten by the higher value
+ private Hashtable<FlatMethod, SharedLocMap> mapFlatMethodToSharedLocMap;
+
// maps a flat method to the may-wirte set that is the set of heap path that
// might be written to
private Hashtable<FlatMethod, Set<NTuple<Descriptor>>> mapFlatMethodToMayWriteSet;
// maps a flatnode to definitely written analysis mapping M
private Hashtable<FlatNode, Hashtable<NTuple<Descriptor>, Set<WriteAge>>> mapFlatNodetoEventLoopMap;
- // maps a method descriptor to its current summary during the analysis
- // then analysis reaches fixed-point, this mapping will have the final summary
- // for each method descriptor
- private Hashtable<MethodDescriptor, ClearingSummary> mapMethodDescriptorToCompleteClearingSummary;
-
- // maps a method descriptor to the merged incoming caller's current
- // overwritten status
- private Hashtable<MethodDescriptor, ClearingSummary> mapMethodDescriptorToInitialClearingSummary;
-
- // maps a flat node to current partial results
- private Hashtable<FlatNode, ClearingSummary> mapFlatNodeToClearingSummary;
-
- private Hashtable<FlatNode, ReadSummary> mapFlatNodeToReadSummary;
-
// maps shared location to the set of descriptors which belong to the shared
// location
public static final String arrayElementFieldName = "___element_";
static protected Hashtable<TypeDescriptor, FieldDescriptor> mapTypeToArrayField;
- private Set<ClearingSummary> possibleCalleeCompleteSummarySetToCaller;
-
// maps a method descriptor to the merged incoming caller's current
// reading status
// it is for setting clearance flag when all read set is overwritten
private Hashtable<MethodDescriptor, ReadSummary> mapMethodDescriptorToReadSummary;
- private LinkedList<MethodDescriptor> sortedDescriptors;
+ private Hashtable<MethodDescriptor, MultiSourceMap<NTuple<Location>, NTuple<Descriptor>>> mapMethodToSharedLocCoverSet;
+
+ private Hashtable<FlatNode, SharedLocMap> mapFlatNodeToSharedLocMapping;
+ private Hashtable<FlatNode, SharedLocMap> mapFlatNodeToDeleteSet;
+ private Hashtable<FlatNode, SharedLocMap> mapFlatNodeToMustClearMap;
- private FlatNode ssjavaLoopEntrance;
private LoopFinder ssjavaLoop;
private Set<FlatNode> loopIncElements;
private Set<NTuple<Descriptor>> calleeUnionBoundReadSet;
private Set<NTuple<Descriptor>> calleeIntersectBoundMustWriteSet;
private Set<NTuple<Descriptor>> calleeUnionBoundMayWriteSet;
+ private SharedLocMap calleeUnionBoundDeleteSet;
+ private SharedLocMap calleeIntersectBoundSharedSet;
+ private SharedLocMap calleeIntersectBoundMustClearSet;
+
+ Set<TempDescriptor> liveInTempSetToEventLoop;
private Hashtable<Descriptor, Location> mapDescToLocation;
this.ssjava = ssjava;
this.callGraph = ssjava.getCallGraph();
this.mapFlatNodeToMustWriteSet = new Hashtable<FlatNode, Set<NTuple<Descriptor>>>();
- this.mapDescriptorToSetDependents = new Hashtable<Descriptor, Set<MethodDescriptor>>();
this.mapHeapPath = new Hashtable<Descriptor, NTuple<Descriptor>>();
+ this.mapDescriptorToLocationPath = new Hashtable<TempDescriptor, NTuple<Location>>();
this.mapFlatMethodToReadSet = new Hashtable<FlatMethod, Set<NTuple<Descriptor>>>();
this.mapFlatMethodToMustWriteSet = new Hashtable<FlatMethod, Set<NTuple<Descriptor>>>();
this.mapFlatMethodToMayWriteSet = new Hashtable<FlatMethod, Set<NTuple<Descriptor>>>();
this.calleeIntersectBoundMustWriteSet = new HashSet<NTuple<Descriptor>>();
this.calleeUnionBoundMayWriteSet = new HashSet<NTuple<Descriptor>>();
- this.mapMethodDescriptorToCompleteClearingSummary =
- new Hashtable<MethodDescriptor, ClearingSummary>();
- this.mapMethodDescriptorToInitialClearingSummary =
- new Hashtable<MethodDescriptor, ClearingSummary>();
this.methodDescriptorsToVisitStack = new Stack<MethodDescriptor>();
this.calleesToEnqueue = new HashSet<MethodDescriptor>();
- this.possibleCalleeCompleteSummarySetToCaller = new HashSet<ClearingSummary>();
this.mapTypeToArrayField = new Hashtable<TypeDescriptor, FieldDescriptor>();
this.LOCAL = new TempDescriptor("LOCAL");
this.mapDescToLocation = new Hashtable<Descriptor, Location>();
this.possibleCalleeReadSummarySetToCaller = new HashSet<ReadSummary>();
this.mapMethodDescriptorToReadSummary = new Hashtable<MethodDescriptor, ReadSummary>();
- this.mapFlatNodeToReadSummary = new Hashtable<FlatNode, ReadSummary>();
this.mapFlatNodeToBoundReadSet = new Hashtable<FlatNode, Set<NTuple<Descriptor>>>();
this.mapFlatNodeToBoundMustWriteSet = new Hashtable<FlatNode, Set<NTuple<Descriptor>>>();
this.mapFlatNodeToBoundMayWriteSet = new Hashtable<FlatNode, Set<NTuple<Descriptor>>>();
+ this.mapFlatNodeToSharedLocMapping = new Hashtable<FlatNode, SharedLocMap>();
+ this.mapFlatMethodToDeleteSet = new Hashtable<FlatMethod, SharedLocMap>();
+ this.calleeUnionBoundDeleteSet = new SharedLocMap();
+ this.calleeIntersectBoundSharedSet = new SharedLocMap();
+ this.mapFlatMethodToSharedLocMap = new Hashtable<FlatMethod, SharedLocMap>();
+ this.mapMethodToSharedLocCoverSet =
+ new Hashtable<MethodDescriptor, MultiSourceMap<NTuple<Location>, NTuple<Descriptor>>>();
+ this.mapFlatNodeToDeleteSet = new Hashtable<FlatNode, SharedLocMap>();
+ this.liveness = new Liveness();
+ this.liveInTempSetToEventLoop = new HashSet<TempDescriptor>();
+ this.mapFlatNodeToMustClearMap = new Hashtable<FlatNode, SharedLocMap>();
+ this.calleeIntersectBoundMustClearSet = new SharedLocMap();
+ this.mapFlatMethodToMustClearMap = new Hashtable<FlatMethod, SharedLocMap>();
}
public void definitelyWrittenCheck() {
if (!ssjava.getAnnotationRequireSet().isEmpty()) {
- identifyMainEventLoop();
+ initialize();
+
methodReadWriteSetAnalysis();
- methodReadWriteSetAnalysisToEventLoopBody();
- eventLoopAnalysis();
computeSharedCoverSet();
- // sharedLocationAnalysis();
- // checkSharedLocationResult();
- }
- }
-
- private void checkSharedLocationResult() {
-
- // mapping of method containing ssjava loop has the final result of
- // shared location analysis
-
- ClearingSummary result =
- mapMethodDescriptorToCompleteClearingSummary.get(methodContainingSSJavaLoop);
-
- String str = generateNotClearedResult(result);
- if (str.length() > 0) {
- throw new Error(
- "Following concrete locations of the shared abstract location are not cleared at the same time:\n"
- + str);
- }
-
- }
-
- private String generateNotClearedResult(ClearingSummary result) {
- Set<NTuple<Descriptor>> keySet = result.keySet();
-
- StringBuffer str = new StringBuffer();
- for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- SharedStatus status = result.get(hpKey);
- Hashtable<Location, Pair<Set<Descriptor>, Boolean>> map = status.getMap();
- Set<Location> locKeySet = map.keySet();
- for (Iterator iterator2 = locKeySet.iterator(); iterator2.hasNext();) {
- Location locKey = (Location) iterator2.next();
- if (status.haveWriteEffect(locKey)) {
- Pair<Set<Descriptor>, Boolean> pair = map.get(locKey);
- if (!pair.getSecond().booleanValue()) {
- // not cleared!
- str.append("- Concrete locations of the shared location '" + locKey
- + "' are not cleared out, which are reachable through the heap path '" + hpKey
- + ".\n");
- }
- }
- }
- }
-
- return str.toString();
-
- }
- private void writeReadMapFile() {
+ sharedLocAnalysis();
- String fileName = "SharedLocationReadMap";
-
- try {
- BufferedWriter bw = new BufferedWriter(new FileWriter(fileName + ".txt"));
+ eventLoopAnalysis();
- Set<MethodDescriptor> keySet = mapMethodDescriptorToReadSummary.keySet();
- for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
- MethodDescriptor mdKey = (MethodDescriptor) iterator.next();
- ReadSummary summary = mapMethodDescriptorToReadSummary.get(mdKey);
- bw.write("Method " + mdKey + "::\n");
- bw.write(summary + "\n\n");
- }
- bw.close();
- } catch (IOException e) {
- e.printStackTrace();
}
-
}
- private void sharedLocationAnalysis() {
- // verify that all concrete locations of shared location are cleared out at
- // the same time once per the out-most loop
-
- computeSharedCoverSet();
-
- if (state.SSJAVADEBUG) {
- writeReadMapFile();
- }
-
- // methodDescriptorsToVisitStack.clear();
- // methodDescriptorsToVisitStack.add(sortedDescriptors.peekFirst());
+ private void sharedLocAnalysis() {
- LinkedList<MethodDescriptor> descriptorListToAnalyze =
- (LinkedList<MethodDescriptor>) sortedDescriptors.clone();
+ // perform method READ/OVERWRITE 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);
// analyze scheduled methods until there are no more to visit
while (!methodDescriptorsToVisitStack.isEmpty()) {
+ // start to analyze leaf node
MethodDescriptor md = methodDescriptorsToVisitStack.pop();
+ FlatMethod fm = state.getMethodFlat(md);
- ClearingSummary completeSummary =
- sharedLocation_analyzeMethod(md, (md.equals(methodContainingSSJavaLoop)));
-
- ClearingSummary prevCompleteSummary = mapMethodDescriptorToCompleteClearingSummary.get(md);
+ SharedLocMap sharedLocMap = new SharedLocMap();
+ SharedLocMap deleteSet = new SharedLocMap();
+ SharedLocMap mustClearMap = new SharedLocMap();
- if (!completeSummary.equals(prevCompleteSummary)) {
+ sharedLoc_analyzeMethod(fm, sharedLocMap, deleteSet, mustClearMap);
+ SharedLocMap prevSharedLocMap = mapFlatMethodToSharedLocMap.get(fm);
+ SharedLocMap prevDeleteSet = mapFlatMethodToDeleteSet.get(fm);
+ SharedLocMap prevMustClearMap = mapFlatMethodToMustClearMap.get(fm);
- mapMethodDescriptorToCompleteClearingSummary.put(md, completeSummary);
+ if (!(deleteSet.equals(prevDeleteSet) && sharedLocMap.equals(prevSharedLocMap) && mustClearMap
+ .equals(prevMustClearMap))) {
+ mapFlatMethodToSharedLocMap.put(fm, sharedLocMap);
+ mapFlatMethodToDeleteSet.put(fm, deleteSet);
+ mapFlatMethodToMustClearMap.put(fm, mustClearMap);
// results for callee changed, so enqueue dependents caller for
- // further analysis
- Iterator<MethodDescriptor> depsItr = getDependents(md).iterator();
+ // further
+ // analysis
+ Iterator<MethodDescriptor> depsItr = ssjava.getDependents(md).iterator();
while (depsItr.hasNext()) {
MethodDescriptor methodNext = depsItr.next();
- if (!methodDescriptorsToVisitStack.contains(methodNext)) {
+ if (!methodDescriptorsToVisitStack.contains(methodNext)
+ && methodDescriptorToVistSet.contains(methodNext)) {
methodDescriptorsToVisitStack.add(methodNext);
}
- }
- // if there is set of callee to be analyzed,
- // add this set into the top of stack
- Iterator<MethodDescriptor> calleeIter = calleesToEnqueue.iterator();
- while (calleeIter.hasNext()) {
- MethodDescriptor mdNext = calleeIter.next();
- if (!methodDescriptorsToVisitStack.contains(mdNext)) {
- methodDescriptorsToVisitStack.add(mdNext);
- }
}
- calleesToEnqueue.clear();
}
}
- }
+ sharedLoc_analyzeEventLoop();
- private ClearingSummary sharedLocation_analyzeMethod(MethodDescriptor md,
- boolean onlyVisitSSJavaLoop) {
+ }
+ private void sharedLoc_analyzeEventLoop() {
if (state.SSJAVADEBUG) {
- System.out.println("SSJAVA: Definite clearance for shared locations Analyzing: " + md);
+ System.out.println("SSJAVA: Definite clearance for shared locations Analyzing: eventloop");
}
+ SharedLocMap sharedLocMap = new SharedLocMap();
+ SharedLocMap deleteSet = new SharedLocMap();
+ SharedLocMap mustClearMap = new SharedLocMap();
+ sharedLoc_analyzeBody(state.getMethodFlat(methodContainingSSJavaLoop),
+ ssjava.getSSJavaLoopEntrance(), sharedLocMap, deleteSet, mustClearMap, true);
- FlatMethod fm = state.getMethodFlat(md);
+ }
- // intraprocedural analysis
- Set<FlatNode> flatNodesToVisit = new HashSet<FlatNode>();
+ private void sharedLoc_analyzeMethod(FlatMethod fm, SharedLocMap sharedLocMap,
+ SharedLocMap deleteSet, SharedLocMap mustClearMap) {
+ if (state.SSJAVADEBUG) {
+ System.out.println("SSJAVA: Definite clearance for shared locations Analyzing: " + fm);
+ }
- // start a new mapping of partial results for each flat node
- mapFlatNodeToClearingSummary = new Hashtable<FlatNode, ClearingSummary>();
+ sharedLoc_analyzeBody(fm, fm, sharedLocMap, deleteSet, mustClearMap, false);
- if (onlyVisitSSJavaLoop) {
- flatNodesToVisit.add(ssjavaLoopEntrance);
- } else {
- flatNodesToVisit.add(fm);
- }
+ }
- Set<FlatNode> returnNodeSet = new HashSet<FlatNode>();
+ private void sharedLoc_analyzeBody(FlatMethod fm, FlatNode startNode, SharedLocMap sharedLocMap,
+ SharedLocMap deleteSet, SharedLocMap mustClearMap, boolean isEventLoopBody) {
+
+ // intraprocedural analysis
+ Set<FlatNode> flatNodesToVisit = new HashSet<FlatNode>();
+ flatNodesToVisit.add(startNode);
while (!flatNodesToVisit.isEmpty()) {
FlatNode fn = flatNodesToVisit.iterator().next();
flatNodesToVisit.remove(fn);
- ClearingSummary curr = new ClearingSummary();
+ SharedLocMap currSharedSet = new SharedLocMap();
+ SharedLocMap currDeleteSet = new SharedLocMap();
+ SharedLocMap currMustClearMap = new SharedLocMap();
- Set<ClearingSummary> prevSet = new HashSet<ClearingSummary>();
for (int i = 0; i < fn.numPrev(); i++) {
FlatNode prevFn = fn.getPrev(i);
- ClearingSummary in = mapFlatNodeToClearingSummary.get(prevFn);
- if (in != null) {
- prevSet.add(in);
+ SharedLocMap inSharedLoc = mapFlatNodeToSharedLocMapping.get(prevFn);
+ if (inSharedLoc != null) {
+ mergeSharedLocMap(currSharedSet, inSharedLoc);
+ }
+
+ SharedLocMap inDeleteLoc = mapFlatNodeToDeleteSet.get(prevFn);
+ if (inDeleteLoc != null) {
+ mergeDeleteSet(currDeleteSet, inDeleteLoc);
+ }
+
+ SharedLocMap inMustClearMap = mapFlatNodeToMustClearMap.get(prevFn);
+ if (inMustClearMap != null) {
+ mergeSharedLocMap(currMustClearMap, inMustClearMap);
}
+
}
- mergeSharedLocationAnaylsis(curr, prevSet);
- sharedLocation_nodeActions(md, fn, curr, returnNodeSet, onlyVisitSSJavaLoop);
- ClearingSummary clearingPrev = mapFlatNodeToClearingSummary.get(fn);
+ sharedLoc_nodeActions(fm, fn, currSharedSet, currDeleteSet, currMustClearMap, sharedLocMap,
+ deleteSet, mustClearMap, isEventLoopBody);
- if (!curr.equals(clearingPrev)) {
- mapFlatNodeToClearingSummary.put(fn, curr);
+ SharedLocMap prevSharedSet = mapFlatNodeToSharedLocMapping.get(fn);
+ SharedLocMap prevDeleteSet = mapFlatNodeToDeleteSet.get(fn);
+ SharedLocMap prevMustClearMap = mapFlatNodeToMustClearMap.get(fn);
+ if (!(currSharedSet.equals(prevSharedSet) && currDeleteSet.equals(prevDeleteSet) && currMustClearMap
+ .equals(prevMustClearMap))) {
+ mapFlatNodeToSharedLocMapping.put(fn, currSharedSet);
+ mapFlatNodeToDeleteSet.put(fn, currDeleteSet);
+ mapFlatNodeToMustClearMap.put(fn, currMustClearMap);
for (int i = 0; i < fn.numNext(); i++) {
FlatNode nn = fn.getNext(i);
-
- if (!onlyVisitSSJavaLoop || (onlyVisitSSJavaLoop && loopIncElements.contains(nn))) {
+ if ((!isEventLoopBody) || loopIncElements.contains(nn)) {
flatNodesToVisit.add(nn);
}
}
- ClearingSummary completeSummary = new ClearingSummary();
- Set<ClearingSummary> summarySet = new HashSet<ClearingSummary>();
+ }
- if (onlyVisitSSJavaLoop) {
- // when analyzing ssjava loop,
- // complete summary is merging of all previous nodes of ssjava loop
- // entrance
- for (int i = 0; i < ssjavaLoopEntrance.numPrev(); i++) {
- ClearingSummary frnSummary =
- mapFlatNodeToClearingSummary.get(ssjavaLoopEntrance.getPrev(i));
- if (frnSummary != null) {
- summarySet.add(frnSummary);
- }
- }
- } else {
- // merging all exit node summary into the complete summary
- if (!returnNodeSet.isEmpty()) {
- for (Iterator iterator = returnNodeSet.iterator(); iterator.hasNext();) {
- FlatNode frn = (FlatNode) iterator.next();
- ClearingSummary frnSummary = mapFlatNodeToClearingSummary.get(frn);
- summarySet.add(frnSummary);
- }
- }
- }
- mergeSharedLocationAnaylsis(completeSummary, summarySet);
+ private void sharedLoc_nodeActions(FlatMethod fm, FlatNode fn, SharedLocMap curr,
+ SharedLocMap currDeleteSet, SharedLocMap currMustClearMap, SharedLocMap sharedLocMap,
+ SharedLocMap deleteSet, SharedLocMap mustClearMap, boolean isEventLoopBody) {
- return completeSummary;
- }
+ MethodDescriptor md = fm.getMethod();
- private void sharedLocation_nodeActions(MethodDescriptor md, FlatNode fn, ClearingSummary curr,
- Set<FlatNode> returnNodeSet, boolean isSSJavaLoop) {
+ SharedLocMap killSet = new SharedLocMap();
+ SharedLocMap genSet = new SharedLocMap();
TempDescriptor lhs;
TempDescriptor rhs;
FieldDescriptor fld;
- switch (fn.kind()) {
- case FKind.FlatMethod: {
- FlatMethod fm = (FlatMethod) fn;
+ NTuple<Location> fieldLocTuple = null;
+ Location fieldLoc = null;
+ boolean isHigherWriteCase = false;
- ClearingSummary summaryFromCaller =
- mapMethodDescriptorToInitialClearingSummary.get(fm.getMethod());
+ switch (fn.kind()) {
- Set<ClearingSummary> inSet = new HashSet<ClearingSummary>();
- if (summaryFromCaller != null) {
- inSet.add(summaryFromCaller);
- mergeSharedLocationAnaylsis(curr, inSet);
- }
+ case FKind.FlatOpNode: {
- }
- break;
+ if (isEventLoopBody) {
+ FlatOpNode fon = (FlatOpNode) fn;
- case FKind.FlatOpNode: {
- FlatOpNode fon = (FlatOpNode) fn;
- lhs = fon.getDest();
- rhs = fon.getLeft();
+ if (fon.getOp().getOp() == Operation.ASSIGN) {
+ lhs = fon.getDest();
+ rhs = fon.getLeft();
- if (fon.getOp().getOp() == Operation.ASSIGN) {
- if (rhs.getType().isImmutable() && isSSJavaLoop) {
- // in ssjavaloop, we need to take care about reading local variables!
- NTuple<Descriptor> rhsHeapPath = new NTuple<Descriptor>();
- NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
- rhsHeapPath.add(LOCAL);
- lhsHeapPath.add(LOCAL);
- if (!lhs.getSymbol().startsWith("neverused")) {
- readLocation(md, curr, rhsHeapPath, getLocation(rhs), rhs);
- writeLocation(md, curr, lhsHeapPath, getLocation(lhs), lhs);
- }
- }
- }
+ if (!lhs.getSymbol().startsWith("neverused") && !lhs.getSymbol().startsWith("leftop")
+ && !lhs.getSymbol().startsWith("rightop") && rhs.getType().isImmutable()) {
- }
- break;
+ if (mapHeapPath.containsKey(rhs)) {
+ Location dstLoc = getLocation(lhs);
+ if (dstLoc != null && ssjava.isSharedLocation(dstLoc)) {
+ NTuple<Descriptor> lhsHeapPath = computePath(lhs);
+ NTuple<Location> lhsLocTuple = mapDescriptorToLocationPath.get(lhs);
- case FKind.FlatFieldNode:
- case FKind.FlatElementNode: {
+ Location srcLoc = getLocation(lhs);
- if (fn.kind() == FKind.FlatFieldNode) {
- FlatFieldNode ffn = (FlatFieldNode) fn;
- lhs = ffn.getDst();
- rhs = ffn.getSrc();
- fld = ffn.getField();
- } else {
- FlatElementNode fen = (FlatElementNode) fn;
- lhs = fen.getDst();
- rhs = fen.getSrc();
- TypeDescriptor td = rhs.getType().dereference();
- fld = getArrayField(td);
- }
+ // computing gen/kill set
+ computeKILLSetForWrite(curr, killSet, lhsLocTuple, lhsHeapPath);
- // read field
- NTuple<Descriptor> srcHeapPath = mapHeapPath.get(rhs);
+ if (!ssjava.isSameHeightWrite(fn)) {
+ computeGENSetForHigherWrite(curr, killSet, lhsLocTuple, lhsHeapPath);
+ updateDeleteSetForHigherWrite(currDeleteSet, lhsLocTuple, lhsHeapPath);
+ } else {
+ computeGENSetForSameHeightWrite(curr, killSet, lhsLocTuple, lhsHeapPath);
+ updateDeleteSetForSameHeightWrite(currDeleteSet, lhsLocTuple, lhsHeapPath);
+ }
- if (srcHeapPath != null) {
- // if lhs srcHeapPath is null, it means that it is not reachable from
- // callee's parameters. so just ignore it
- NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(srcHeapPath.getList());
-
- if (!fld.getType().isArray() && fld.getType().isImmutable()) {
- Location loc;
- if (fn.kind() == FKind.FlatElementNode) {
- // array element read case
- NTuple<Descriptor> newHeapPath = new NTuple<Descriptor>();
- for (int i = 0; i < fldHeapPath.size() - 1; i++) {
- newHeapPath.add(fldHeapPath.get(i));
+ }
+ } else {
+ break;
}
- Descriptor desc = fldHeapPath.get(fldHeapPath.size() - 1);
- if (desc instanceof FieldDescriptor) {
- fld = (FieldDescriptor) desc;
- fldHeapPath = newHeapPath;
- loc = getLocation(fld);
- readLocation(md, curr, fldHeapPath, loc, fld);
- }
- } else {
- loc = getLocation(fld);
- readLocation(md, curr, fldHeapPath, loc, fld);
}
- } else {
- if (fn.kind() != FKind.FlatElementNode) {
- // if it is multi dimensional array, do not need to add heap path
- // because all accesses from the same array is represented by
- // "_element_"
- fldHeapPath.add(fld);
- }
- mapHeapPath.put(lhs, fldHeapPath);
}
}
- // }
-
}
break;
lhs = fsfn.getDst();
fld = fsfn.getField();
rhs = fsfn.getSrc();
+ fieldLoc = (Location) fld.getType().getExtension();
} else {
- FlatSetElementNode fsen = (FlatSetElementNode) fn;
- lhs = fsen.getDst();
- rhs = fsen.getSrc();
- TypeDescriptor td = lhs.getType().dereference();
- fld = getArrayField(td);
+ break;
}
- // write(field)
- NTuple<Descriptor> lhsHeapPath = computePath(lhs);
- NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(lhsHeapPath.getList());
- if (fld.getType().isImmutable()) {
- writeLocation(md, curr, fldHeapPath, getLocation(fld), fld);
+ if (!isEventLoopBody && fieldLoc.getDescriptor().equals(md)) {
+ // if the field belongs to the local lattice, no reason to calculate
+ // shared location
+ break;
+ }
- Descriptor desc = fldHeapPath.get(fldHeapPath.size() - 1);
- if (desc instanceof FieldDescriptor) {
- NTuple<Descriptor> arrayPath = new NTuple<Descriptor>();
- for (int i = 0; i < fldHeapPath.size() - 1; i++) {
- arrayPath.add(fldHeapPath.get(i));
+ fieldLocTuple = new NTuple<Location>();
+ if (fld.isStatic()) {
+ if (fld.isFinal()) {
+ // in this case, fld has TOP location
+ Location topLocation = Location.createTopLocation(md);
+ fieldLocTuple.add(topLocation);
+ } else {
+ fieldLocTuple.addAll(deriveGlobalLocationTuple(md));
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLocTuple.add((Location) fld.getType().getExtension());
}
- SharedStatus state = getState(curr, arrayPath);
- state.setWriteEffect(getLocation(desc));
}
} else {
- // updates reference field case:
- fldHeapPath.add(fld);
- updateWriteEffectOnReferenceField(curr, fldHeapPath);
+ fieldLocTuple.addAll(deriveLocationTuple(md, lhs));
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLocTuple.add((Location) fld.getType().getExtension());
+ }
}
- }
- break;
-
- case FKind.FlatCall: {
-
- FlatCall fc = (FlatCall) fn;
-
- if (ssjava.isSSJavaUtil(fc.getMethod().getClassDesc())) {
- // ssjava util case!
- // have write effects on the first argument
-
- if (fc.getArg(0).getType().isArray()) {
- // updates reference field case:
- // 2. if there exists a tuple t in sharing summary that starts with
- // hp(x) then, set flag of tuple t to 'true'
- NTuple<Descriptor> argHeapPath = computePath(fc.getArg(0));
+ // shared loc extension
+ Location srcLoc = getLocation(rhs);
+ if (ssjava.isSharedLocation(fieldLoc)) {
+ // only care the case that loc(f) is shared location
+ // write(field)
- Location loc = getLocation(fc.getArg(0));
- NTuple<Descriptor> newHeapPath = new NTuple<Descriptor>();
- for (int i = 0; i < argHeapPath.size() - 1; i++) {
- newHeapPath.add(argHeapPath.get(i));
- }
- fld = (FieldDescriptor) argHeapPath.get(argHeapPath.size() - 1);
- argHeapPath = newHeapPath;
+ // NTuple<Location> fieldLocTuple = new NTuple<Location>();
+ // fieldLocTuple.addAll(mapDescriptorToLocationPath.get(lhs));
+ // fieldLocTuple.add(fieldLoc);
- writeLocation(md, curr, argHeapPath, loc, fld);
+ NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>();
+ fldHeapPath.addAll(computePath(lhs));
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fldHeapPath.add(fld);
}
- } else {
- // find out the set of callees
- MethodDescriptor mdCallee = fc.getMethod();
- FlatMethod fmCallee = state.getMethodFlat(mdCallee);
- Set<MethodDescriptor> setPossibleCallees = new HashSet<MethodDescriptor>();
- setPossibleCallees.addAll(callGraph.getMethods(mdCallee));
-
- possibleCalleeCompleteSummarySetToCaller.clear();
-
- for (Iterator iterator = setPossibleCallees.iterator(); iterator.hasNext();) {
- MethodDescriptor mdPossibleCallee = (MethodDescriptor) iterator.next();
- FlatMethod calleeFlatMethod = state.getMethodFlat(mdPossibleCallee);
-
- addDependent(mdPossibleCallee, // callee
- md); // caller
-
- calleesToEnqueue.add(mdPossibleCallee);
+ // computing gen/kill set
+ computeKILLSetForWrite(curr, killSet, fieldLocTuple, fldHeapPath);
- // updates possible callee's initial summary using caller's current
- // writing status
- ClearingSummary prevCalleeInitSummary =
- mapMethodDescriptorToInitialClearingSummary.get(mdPossibleCallee);
+ if (!ssjava.isSameHeightWrite(fn)) {
+ computeGENSetForHigherWrite(curr, genSet, fieldLocTuple, fldHeapPath);
+ updateDeleteSetForHigherWrite(currDeleteSet, fieldLocTuple, fldHeapPath);
- ClearingSummary calleeInitSummary =
- bindHeapPathOfCalleeCallerEffects(fc, calleeFlatMethod, curr);
+ isHigherWriteCase = true;
- Set<ClearingSummary> inSet = new HashSet<ClearingSummary>();
- if (prevCalleeInitSummary != null) {
- inSet.add(prevCalleeInitSummary);
- mergeSharedLocationAnaylsis(calleeInitSummary, inSet);
- }
+ } else {
+ computeGENSetForSameHeightWrite(curr, genSet, fieldLocTuple, fldHeapPath);
+ updateDeleteSetForSameHeightWrite(currDeleteSet, fieldLocTuple, fldHeapPath);
+ }
- // if changes, update the init summary
- // and reschedule the callee for analysis
- if (!calleeInitSummary.equals(prevCalleeInitSummary)) {
+ }
- if (!methodDescriptorsToVisitStack.contains(mdPossibleCallee)) {
- methodDescriptorsToVisitStack.add(mdPossibleCallee);
- }
+ }
+ break;
- mapMethodDescriptorToInitialClearingSummary.put(mdPossibleCallee, calleeInitSummary);
- }
+ case FKind.FlatCall: {
+ FlatCall fc = (FlatCall) fn;
- }
+ bindHeapPathCallerArgWithCaleeParamForSharedLoc(fm.getMethod(), fc);
- // contribute callee's writing effects to the caller
- mergeSharedLocationAnaylsis(curr, possibleCalleeCompleteSummarySetToCaller);
+ // computing gen/kill set
+ generateKILLSetForFlatCall(curr, killSet);
+ generateGENSetForFlatCall(curr, genSet);
+ Set<NTuple<Location>> locTupleSet = calleeIntersectBoundMustClearSet.keySet();
+ for (Iterator iterator = locTupleSet.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTupleKey = (NTuple<Location>) iterator.next();
+ currMustClearMap.addWrite(locTupleKey, calleeIntersectBoundMustClearSet.get(locTupleKey));
}
}
break;
- case FKind.FlatReturnNode: {
- returnNodeSet.add(fn);
+ case FKind.FlatExit: {
+ // merge the current delete/shared loc mapping
+ mergeSharedLocMap(sharedLocMap, curr);
+ mergeDeleteSet(deleteSet, currDeleteSet);
+ mergeSharedLocMap(mustClearMap, currMustClearMap);
}
break;
}
- }
-
- private void updateWriteEffectOnReferenceField(ClearingSummary curr, NTuple<Descriptor> heapPath) {
+ computeNewMapping(curr, killSet, genSet);
+ if (isHigherWriteCase) {
+ // check all locations with the same shared location are cleared out at this point
+ Set<NTuple<Descriptor>> writtenSet = curr.get(fieldLocTuple);
+ Set<Descriptor> requirementSet = ssjava.getSharedDescSet(fieldLoc);
- // 2. if there exists a tuple t in sharing summary that starts with
- // hp(x) then, set flag of tuple t to 'true'
- Set<NTuple<Descriptor>> hpKeySet = curr.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- if (hpKey.startsWith(heapPath)) {
- curr.get(hpKey).updateFlag(true);
+ if (checkAllSharedLocationsAreOverwritten(requirementSet, writtenSet)) {
+ currMustClearMap.addWrite(fieldLocTuple, writtenSet);
}
}
-
}
- private void bindHeapPathReadSummary(FlatCall fc, FlatMethod calleeFlatMethod, ReadSummary curr) {
-
- ReadSummary boundSet = new ReadSummary();
+ private boolean checkAllSharedLocationsAreOverwritten(Set<Descriptor> sharedDescSet,
+ Set<NTuple<Descriptor>> writtenSet) {
- // create mapping from arg idx to its heap paths
- Hashtable<Integer, NTuple<Descriptor>> mapArgIdx2CallerArgHeapPath =
- new Hashtable<Integer, NTuple<Descriptor>>();
-
- if (fc.getThis() != null) {
- // arg idx is starting from 'this' arg
- NTuple<Descriptor> thisHeapPath = mapHeapPath.get(fc.getThis());
- if (thisHeapPath == null) {
- // method is called without creating new flat node representing 'this'
- thisHeapPath = new NTuple<Descriptor>();
- thisHeapPath.add(fc.getThis());
- }
-
- mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
- }
-
- for (int i = 0; i < fc.numArgs(); i++) {
- TempDescriptor arg = fc.getArg(i);
- NTuple<Descriptor> argHeapPath = computePath(arg);
- mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(i + 1), argHeapPath);
- }
-
- Hashtable<Integer, TempDescriptor> mapParamIdx2ParamTempDesc =
- new Hashtable<Integer, TempDescriptor>();
- int offset = 0;
- if (calleeFlatMethod.getMethod().isStatic()) {
- // static method does not have implicit 'this' arg
- offset = 1;
- }
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- TempDescriptor param = calleeFlatMethod.getParameter(i);
- mapParamIdx2ParamTempDesc.put(Integer.valueOf(i + offset), param);
- }
-
- // binding caller's read effects to callee's params
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- NTuple<Descriptor> argHeapPath = mapArgIdx2CallerArgHeapPath.get(Integer.valueOf(i));
-
- if (argHeapPath != null) {
- // if method is static, the first argument is nulll because static
- // method does not have implicit "THIS" arg
- TempDescriptor calleeParamHeapPath = mapParamIdx2ParamTempDesc.get(Integer.valueOf(i));
-
- // iterate over caller's writing effect set
- Set<NTuple<Descriptor>> hpKeySet = curr.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- // current element is reachable caller's arg
- // so need to bind it to the caller's side and add it to the
- // callee's summary
- if (hpKey.startsWith(argHeapPath)) {
- NTuple<Descriptor> boundHeapPath = replace(hpKey, argHeapPath, calleeParamHeapPath);
- boundSet.put(boundHeapPath, curr.get(hpKey));
- }
- }
- }
+ if (sharedDescSet == null || writtenSet == null) {
+ return false;
}
-
- // merge into callee's previous read set
- ReadSummary calleeSummary = mapMethodDescriptorToReadSummary.get(calleeFlatMethod.getMethod());
- if (calleeSummary == null) {
- calleeSummary = new ReadSummary();
- mapMethodDescriptorToReadSummary.put(calleeFlatMethod.getMethod(), calleeSummary);
+ Set<Descriptor> writtenDescSet = new HashSet<Descriptor>();
+ for (Iterator iterator = writtenSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> tuple = (NTuple<Descriptor>) iterator.next();
+ writtenDescSet.add(tuple.get(tuple.size() - 1));
}
- Set<ReadSummary> inSet = new HashSet<ReadSummary>();
- inSet.add(boundSet);
- mergeReadLocationAnaylsis(calleeSummary, inSet);
-
- // contribute callee's read summary into the caller's current summary
- ReadSummary boundCalleeEfffects = new ReadSummary();
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- NTuple<Descriptor> argHeapPath = mapArgIdx2CallerArgHeapPath.get(Integer.valueOf(i));
- if (argHeapPath != null) {
- // if method is static, the first argument is nulll because static
- // method does not have implicit "THIS" arg
- TempDescriptor calleeParamHeapPath = mapParamIdx2ParamTempDesc.get(Integer.valueOf(i));
+ return writtenDescSet.containsAll(sharedDescSet);
+ // return sharedDescSet.containsAll(writtenDescSet);
- // iterate over callee's writing effect set
- Set<NTuple<Descriptor>> hpKeySet = calleeSummary.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- // current element is reachable caller's arg
- // so need to bind it to the caller's side and add it to the
- // callee's
- // init summary
- if (hpKey.startsWith(calleeParamHeapPath)) {
-
- NTuple<Descriptor> boundHeapPathForCaller = replace(hpKey, argHeapPath);
-
- boundCalleeEfffects.put(boundHeapPathForCaller, calleeSummary.get(hpKey));
+ }
- }
- }
+ private void generateGENSetForFlatCall(SharedLocMap curr, SharedLocMap genSet) {
- }
+ Set<NTuple<Location>> locTupleSet = calleeIntersectBoundSharedSet.keySet();
+ for (Iterator iterator = locTupleSet.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTupleKey = (NTuple<Location>) iterator.next();
+ genSet.addWrite(locTupleKey, curr.get(locTupleKey));
+ genSet.addWrite(locTupleKey, calleeIntersectBoundSharedSet.get(locTupleKey));
+ genSet.removeWriteAll(locTupleKey, calleeUnionBoundDeleteSet.get(locTupleKey));
}
- possibleCalleeReadSummarySetToCaller.add(boundCalleeEfffects);
}
- private ClearingSummary bindHeapPathOfCalleeCallerEffects(FlatCall fc,
- FlatMethod calleeFlatMethod, ClearingSummary curr) {
-
- ClearingSummary boundSet = new ClearingSummary();
-
- // create mapping from arg idx to its heap paths
- Hashtable<Integer, NTuple<Descriptor>> mapArgIdx2CallerArgHeapPath =
- new Hashtable<Integer, NTuple<Descriptor>>();
+ private void generateKILLSetForFlatCall(SharedLocMap curr, SharedLocMap killSet) {
- if (fc.getThis() != null) {
- // arg idx is starting from 'this' arg
- NTuple<Descriptor> thisHeapPath = mapHeapPath.get(fc.getThis());
- if (thisHeapPath == null) {
- // method is called without creating new flat node representing 'this'
- thisHeapPath = new NTuple<Descriptor>();
- thisHeapPath.add(fc.getThis());
- }
-
- mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
+ Set<NTuple<Location>> locTupleSet = calleeIntersectBoundSharedSet.keySet();
+ for (Iterator iterator = locTupleSet.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTupleKey = (NTuple<Location>) iterator.next();
+ killSet.addWrite(locTupleKey, curr.get(locTupleKey));
}
- for (int i = 0; i < fc.numArgs(); i++) {
- TempDescriptor arg = fc.getArg(i);
- NTuple<Descriptor> argHeapPath = computePath(arg);
- mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(i + 1), argHeapPath);
- }
-
- Hashtable<Integer, TempDescriptor> mapParamIdx2ParamTempDesc =
- new Hashtable<Integer, TempDescriptor>();
- int offset = 0;
- if (calleeFlatMethod.getMethod().isStatic()) {
- // static method does not have implicit 'this' arg
- offset = 1;
- }
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- TempDescriptor param = calleeFlatMethod.getParameter(i);
- mapParamIdx2ParamTempDesc.put(Integer.valueOf(i + offset), param);
- }
-
- // binding caller's writing effects to callee's params
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- NTuple<Descriptor> argHeapPath = mapArgIdx2CallerArgHeapPath.get(Integer.valueOf(i));
-
- if (argHeapPath != null) {
- // if method is static, the first argument is nulll because static
- // method does not have implicit "THIS" arg
- TempDescriptor calleeParamHeapPath = mapParamIdx2ParamTempDesc.get(Integer.valueOf(i));
-
- // iterate over caller's writing effect set
- Set<NTuple<Descriptor>> hpKeySet = curr.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- // current element is reachable caller's arg
- // so need to bind it to the caller's side and add it to the
- // callee's
- // init summary
- if (hpKey.startsWith(argHeapPath)) {
- NTuple<Descriptor> boundHeapPath = replace(hpKey, argHeapPath, calleeParamHeapPath);
- boundSet.put(boundHeapPath, curr.get(hpKey).clone());
- }
+ }
- }
- }
+ private void mergeDeleteSet(SharedLocMap currDeleteSet, SharedLocMap inDeleteLoc) {
- }
+ Set<NTuple<Location>> locTupleKeySet = inDeleteLoc.keySet();
- // contribute callee's complete summary into the caller's current summary
- ClearingSummary calleeCompleteSummary =
- mapMethodDescriptorToCompleteClearingSummary.get(calleeFlatMethod.getMethod());
- if (calleeCompleteSummary != null) {
- ClearingSummary boundCalleeEfffects = new ClearingSummary();
- for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
- NTuple<Descriptor> argHeapPath = mapArgIdx2CallerArgHeapPath.get(Integer.valueOf(i));
+ for (Iterator iterator = locTupleKeySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTupleKey = (NTuple<Location>) iterator.next();
- if (argHeapPath != null) {
- // if method is static, the first argument is nulll because static
- // method does not have implicit "THIS" arg
- TempDescriptor calleeParamHeapPath = mapParamIdx2ParamTempDesc.get(Integer.valueOf(i));
+ Set<NTuple<Descriptor>> inSet = inDeleteLoc.get(locTupleKey);
+ currDeleteSet.addWrite(locTupleKey, inSet);
- // iterate over callee's writing effect set
- Set<NTuple<Descriptor>> hpKeySet = calleeCompleteSummary.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- // current element is reachable caller's arg
- // so need to bind it to the caller's side and add it to the
- // callee's
- // init summary
- if (hpKey.startsWith(calleeParamHeapPath)) {
+ }
+ }
- NTuple<Descriptor> boundHeapPathForCaller = replace(hpKey, argHeapPath);
+ private void computeNewMapping(SharedLocMap curr, SharedLocMap killSet, SharedLocMap genSet) {
+ curr.kill(killSet);
+ curr.gen(genSet);
+ }
- boundCalleeEfffects.put(boundHeapPathForCaller, calleeCompleteSummary.get(hpKey)
- .clone());
+ private void updateDeleteSetForHigherWrite(SharedLocMap currDeleteSet, NTuple<Location> locTuple,
+ NTuple<Descriptor> hp) {
+ currDeleteSet.removeWrite(locTuple, hp);
+ }
- }
- }
+ private void updateDeleteSetForSameHeightWrite(SharedLocMap currDeleteSet,
+ NTuple<Location> locTuple, NTuple<Descriptor> hp) {
+ currDeleteSet.addWrite(locTuple, hp);
+ }
- }
+ private void computeGENSetForHigherWrite(SharedLocMap curr, SharedLocMap genSet,
+ NTuple<Location> locTuple, NTuple<Descriptor> hp) {
+ Set<NTuple<Descriptor>> currWriteSet = curr.get(locTuple);
- }
- possibleCalleeCompleteSummarySetToCaller.add(boundCalleeEfffects);
+ if (currWriteSet != null) {
+ genSet.addWrite(locTuple, currWriteSet);
}
-
- return boundSet;
+ genSet.addWrite(locTuple, hp);
}
- private NTuple<Descriptor> replace(NTuple<Descriptor> hpKey, NTuple<Descriptor> argHeapPath) {
+ private void computeGENSetForSameHeightWrite(SharedLocMap curr, SharedLocMap genSet,
+ NTuple<Location> locTuple, NTuple<Descriptor> hp) {
+ Set<NTuple<Descriptor>> currWriteSet = curr.get(locTuple);
- // replace the head of heap path with caller's arg path
- // for example, heap path 'param.a.b' in callee's side will be replaced with
- // (corresponding arg heap path).a.b for caller's side
-
- NTuple<Descriptor> bound = new NTuple<Descriptor>();
-
- for (int i = 0; i < argHeapPath.size(); i++) {
- bound.add(argHeapPath.get(i));
+ if (currWriteSet != null) {
+ genSet.addWrite(locTuple, currWriteSet);
}
+ genSet.removeWrite(locTuple, hp);
+ }
+
+ private void computeKILLSetForWrite(SharedLocMap curr, SharedLocMap killSet,
+ NTuple<Location> locTuple, NTuple<Descriptor> hp) {
- for (int i = 1; i < hpKey.size(); i++) {
- bound.add(hpKey.get(i));
+ Set<NTuple<Descriptor>> writeSet = curr.get(locTuple);
+ if (writeSet != null) {
+ killSet.addWrite(locTuple, writeSet);
}
- return bound;
}
- private NTuple<Descriptor> replace(NTuple<Descriptor> effectHeapPath,
- NTuple<Descriptor> argHeapPath, TempDescriptor calleeParamHeapPath) {
- // replace the head of caller's heap path with callee's param heap path
+ private void mergeSharedLocMap(SharedLocMap currSharedSet, SharedLocMap in) {
- NTuple<Descriptor> boundHeapPath = new NTuple<Descriptor>();
- boundHeapPath.add(calleeParamHeapPath);
+ Set<NTuple<Location>> locTupleKeySet = in.keySet();
+ for (Iterator iterator = locTupleKeySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> locTupleKey = (NTuple<Location>) iterator.next();
- for (int i = argHeapPath.size(); i < effectHeapPath.size(); i++) {
- boundHeapPath.add(effectHeapPath.get(i));
+ Set<NTuple<Descriptor>> inSet = in.get(locTupleKey);
+ Set<NTuple<Descriptor>> currSet = currSharedSet.get(locTupleKey);
+ if (currSet == null) {
+ currSet = new HashSet<NTuple<Descriptor>>();
+ currSet.addAll(inSet);
+ currSharedSet.addWrite(locTupleKey, currSet);
+ }
+ currSet.retainAll(inSet);
}
- return boundHeapPath;
}
private void computeSharedCoverSet() {
- LinkedList<MethodDescriptor> descriptorListToAnalyze =
- (LinkedList<MethodDescriptor>) sortedDescriptors.clone();
+ LinkedList<MethodDescriptor> descriptorListToAnalyze = ssjava.getSortedDescriptors();
// current descriptors to visit in fixed-point interprocedural analysis,
// prioritized by
// analyze scheduled methods until there are no more to visit
while (!methodDescriptorsToVisitStack.isEmpty()) {
MethodDescriptor md = methodDescriptorsToVisitStack.pop();
-
FlatMethod fm = state.getMethodFlat(md);
- ReadSummary completeSummary =
- computeReadSharedDescriptorSet_analyzeMethod(fm, (md.equals(methodContainingSSJavaLoop)));
-
- ReadSummary prevCompleteSummary = mapMethodDescriptorToReadSummary.get(md);
-
- if (!completeSummary.equals(prevCompleteSummary)) {
- mapMethodDescriptorToReadSummary.put(md, completeSummary);
-
- // results for callee changed, so enqueue dependents caller for
- // further analysis
- Iterator<MethodDescriptor> depsItr = getDependents(md).iterator();
- while (depsItr.hasNext()) {
- MethodDescriptor methodNext = depsItr.next();
- if (!methodDescriptorsToVisitStack.contains(methodNext)) {
- methodDescriptorsToVisitStack.add(methodNext);
- }
- }
-
- // if there is set of callee to be analyzed,
- // add this set into the top of stack
- Iterator<MethodDescriptor> calleeIter = calleesToEnqueue.iterator();
- while (calleeIter.hasNext()) {
- MethodDescriptor mdNext = calleeIter.next();
- if (!methodDescriptorsToVisitStack.contains(mdNext)) {
- methodDescriptorsToVisitStack.add(mdNext);
- }
- }
- calleesToEnqueue.clear();
+ computeSharedCoverSet_analyzeMethod(fm, md.equals(methodContainingSSJavaLoop));
+ }
- }
+ computeSharedCoverSetForEventLoop();
- }
+ }
+ private void computeSharedCoverSetForEventLoop() {
+ computeSharedCoverSet_analyzeMethod(state.getMethodFlat(methodContainingSSJavaLoop), true);
}
- private ReadSummary computeReadSharedDescriptorSet_analyzeMethod(FlatMethod fm,
- boolean onlyVisitSSJavaLoop) {
+ private void computeSharedCoverSet_analyzeMethod(FlatMethod fm, boolean onlyVisitSSJavaLoop) {
MethodDescriptor md = fm.getMethod();
+
Set<FlatNode> flatNodesToVisit = new HashSet<FlatNode>();
+ Set<FlatNode> visited = new HashSet<FlatNode>();
+
if (onlyVisitSSJavaLoop) {
- flatNodesToVisit.add(ssjavaLoopEntrance);
+ flatNodesToVisit.add(ssjava.getSSJavaLoopEntrance());
} else {
flatNodesToVisit.add(fm);
}
- Set<FlatNode> returnNodeSet = new HashSet<FlatNode>();
-
while (!flatNodesToVisit.isEmpty()) {
FlatNode fn = flatNodesToVisit.iterator().next();
flatNodesToVisit.remove(fn);
+ visited.add(fn);
- ReadSummary curr = new ReadSummary();
+ computeSharedCoverSet_nodeActions(md, fn, onlyVisitSSJavaLoop);
- Set<ReadSummary> prevSet = new HashSet<ReadSummary>();
- for (int i = 0; i < fn.numPrev(); i++) {
- FlatNode prevFn = fn.getPrev(i);
- ReadSummary in = mapFlatNodeToReadSummary.get(prevFn);
- if (in != null) {
- prevSet.add(in);
- }
- }
+ for (int i = 0; i < fn.numNext(); i++) {
+ FlatNode nn = fn.getNext(i);
- mergeReadLocationAnaylsis(curr, prevSet);
+ if (!visited.contains(nn)) {
+ if (!onlyVisitSSJavaLoop || (onlyVisitSSJavaLoop && loopIncElements.contains(nn))) {
+ flatNodesToVisit.add(nn);
+ }
+ }
- computeReadSharedDescriptorSet_nodeActions(md, fn, curr, returnNodeSet, onlyVisitSSJavaLoop);
+ }
- ReadSummary readPrev = mapFlatNodeToReadSummary.get(fn);
+ }
- if (!curr.equals(readPrev)) {
- mapFlatNodeToReadSummary.put(fn, curr);
+ }
- for (int i = 0; i < fn.numNext(); i++) {
- FlatNode nn = fn.getNext(i);
+ private void computeSharedCoverSet_nodeActions(MethodDescriptor md, FlatNode fn,
+ boolean isEventLoopBody) {
+ TempDescriptor lhs;
+ TempDescriptor rhs;
+ FieldDescriptor fld;
- if (!onlyVisitSSJavaLoop || (onlyVisitSSJavaLoop && loopIncElements.contains(nn))) {
- flatNodesToVisit.add(nn);
- }
+ switch (fn.kind()) {
+ case FKind.FlatLiteralNode: {
+ FlatLiteralNode fln = (FlatLiteralNode) fn;
+ lhs = fln.getDst();
+
+ NTuple<Location> lhsLocTuple = new NTuple<Location>();
+ lhsLocTuple.add(Location.createTopLocation(md));
+ mapDescriptorToLocationPath.put(lhs, lhsLocTuple);
+
+ if (lhs.getType().isPrimitive() && !lhs.getSymbol().startsWith("neverused")
+ && !lhs.getSymbol().startsWith("srctmp")) {
+ // only need to care about composite location case here
+ if (lhs.getType().getExtension() instanceof SSJavaType) {
+ CompositeLocation compLoc = ((SSJavaType) lhs.getType().getExtension()).getCompLoc();
+ Location lastLocElement = compLoc.get(compLoc.getSize() - 1);
}
}
}
+ break;
- ReadSummary completeSummary = new ReadSummary();
- Set<ReadSummary> summarySet = new HashSet<ReadSummary>();
+ case FKind.FlatOpNode: {
+ FlatOpNode fon = (FlatOpNode) fn;
+ // for a normal assign node, need to propagate lhs's location path to
+ // rhs
+ if (fon.getOp().getOp() == Operation.ASSIGN) {
+ rhs = fon.getLeft();
+ lhs = fon.getDest();
+
+ if (!lhs.getSymbol().startsWith("neverused") && !lhs.getSymbol().startsWith("leftop")
+ && !lhs.getSymbol().startsWith("rightop")) {
+
+ if (mapHeapPath.containsKey(rhs)) {
+ NTuple<Location> rhsLocTuple = new NTuple<Location>();
+ NTuple<Location> lhsLocTuple = new NTuple<Location>();
+ if (mapDescriptorToLocationPath.containsKey(rhs)) {
+ mapDescriptorToLocationPath.put(lhs, deriveLocationTuple(md, rhs));
+ lhsLocTuple = mapDescriptorToLocationPath.get(lhs);
+ } else {
+ // rhs side
+ if (rhs.getType().getExtension() != null
+ && rhs.getType().getExtension() instanceof SSJavaType) {
+
+ if (((SSJavaType) rhs.getType().getExtension()).getCompLoc() != null) {
+ rhsLocTuple.addAll(((SSJavaType) rhs.getType().getExtension()).getCompLoc()
+ .getTuple());
+ }
+
+ } else {
+ NTuple<Location> locTuple = deriveLocationTuple(md, rhs);
+ if (locTuple != null) {
+ rhsLocTuple.addAll(locTuple);
+ }
+ }
+ if (rhsLocTuple.size() > 0) {
+ mapDescriptorToLocationPath.put(rhs, rhsLocTuple);
+ }
+
+ // lhs side
+ if (lhs.getType().getExtension() != null
+ && lhs.getType().getExtension() instanceof SSJavaType) {
+ lhsLocTuple.addAll(((SSJavaType) lhs.getType().getExtension()).getCompLoc()
+ .getTuple());
+ mapDescriptorToLocationPath.put(lhs, lhsLocTuple);
+ } else if (mapDescriptorToLocationPath.get(rhs) != null) {
+ // propagate rhs's location to lhs
+ lhsLocTuple.addAll(mapDescriptorToLocationPath.get(rhs));
+ mapDescriptorToLocationPath.put(lhs, lhsLocTuple);
+ }
+ }
+
+ if (isEventLoopBody && lhs.getType().isPrimitive()
+ && !lhs.getSymbol().startsWith("srctmp")) {
+
+ NTuple<Descriptor> lhsHeapPath = computePath(lhs);
+
+ if (lhsLocTuple != null) {
+ addMayWrittenSet(md, lhsLocTuple, lhsHeapPath);
+ }
+
+ }
+ } else {
+ break;
+ }
- if (onlyVisitSSJavaLoop) {
- // when analyzing ssjava loop,
- // complete summary is merging of all previous nodes of ssjava loop
- // entrance
- for (int i = 0; i < ssjavaLoopEntrance.numPrev(); i++) {
- ReadSummary frnSummary = mapFlatNodeToReadSummary.get(ssjavaLoopEntrance.getPrev(i));
- if (frnSummary != null) {
- summarySet.add(frnSummary);
}
+
}
- } else {
- // merging exit node summary into the complete summary
- summarySet.add(mapFlatNodeToReadSummary.get(fm.getFlatExit()));
}
- mergeReadLocationAnaylsis(completeSummary, summarySet);
-
- return completeSummary;
+ break;
- }
+ case FKind.FlatSetFieldNode:
+ case FKind.FlatSetElementNode: {
- private void computeReadSharedDescriptorSet_nodeActions(MethodDescriptor caller, FlatNode fn,
- ReadSummary curr, Set<FlatNode> returnNodeSet, boolean isSSJavaLoop) {
+ // x.f=y;
- TempDescriptor lhs;
- TempDescriptor rhs;
- FieldDescriptor fld;
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ FlatSetFieldNode fsfn = (FlatSetFieldNode) fn;
+ lhs = fsfn.getDst();
+ fld = fsfn.getField();
+ rhs = fsfn.getSrc();
+ } else {
+ FlatSetElementNode fsen = (FlatSetElementNode) fn;
+ lhs = fsen.getDst();
+ rhs = fsen.getSrc();
+ TypeDescriptor td = lhs.getType().dereference();
+ fld = getArrayField(td);
+ }
- switch (fn.kind()) {
+ NTuple<Location> lhsLocTuple = new NTuple<Location>();
+ if (fld.isStatic()) {
+ if (fld.isFinal()) {
+ // in this case, fld has TOP location
+ Location topLocation = Location.createTopLocation(md);
+ lhsLocTuple.add(topLocation);
+ } else {
+ lhsLocTuple.addAll(deriveGlobalLocationTuple(md));
+ }
+ } else {
+ lhsLocTuple.addAll(deriveLocationTuple(md, lhs));
+ }
- case FKind.FlatMethod: {
- FlatMethod fm = (FlatMethod) fn;
+ mapDescriptorToLocationPath.put(lhs, lhsLocTuple);
- ReadSummary summary = mapMethodDescriptorToReadSummary.get(fm.getMethod());
+ NTuple<Location> fieldLocTuple = new NTuple<Location>();
+ fieldLocTuple.addAll(lhsLocTuple);
- Set<ReadSummary> inSet = new HashSet<ReadSummary>();
- if (summary != null) {
- inSet.add(summary);
- mergeReadLocationAnaylsis(curr, inSet);
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLocTuple.add((Location) fld.getType().getExtension());
}
- }
- break;
+ if (mapHeapPath.containsKey(lhs)) {
+ // fields reachable from the param can have heap path entry.
+ NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
+ lhsHeapPath.addAll(mapHeapPath.get(lhs));
- case FKind.FlatOpNode: {
- FlatOpNode fon = (FlatOpNode) fn;
- lhs = fon.getDest();
- rhs = fon.getLeft();
+ Location fieldLocation;
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLocation = getLocation(fld);
+ } else {
+ fieldLocation = getLocation(lhsHeapPath.get(getArrayBaseDescriptorIdx(lhsHeapPath)));
+ }
- if (fon.getOp().getOp() == Operation.ASSIGN) {
- if (rhs.getType().isImmutable() && isSSJavaLoop && (!rhs.getSymbol().startsWith("srctmp"))) {
- // in ssjavaloop, we need to take care about reading local variables!
- NTuple<Descriptor> rhsHeapPath = new NTuple<Descriptor>();
- NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
- rhsHeapPath.add(LOCAL);
- Location loc = getLocation(rhs);
- if (loc != null && ssjava.isSharedLocation(loc)) {
- curr.addRead(rhsHeapPath, loc, rhs);
+ // Location fieldLocation = getLocation(lhs);
+ if (!isEventLoopBody && fieldLocation.getDescriptor().equals(md)) {
+ // if the field belongs to the local lattice, no reason to calculate
+ // shared location
+ break;
+ }
+
+ if (ssjava.isSharedLocation(fieldLocation)) {
+
+ NTuple<Descriptor> fieldHeapPath = new NTuple<Descriptor>();
+ fieldHeapPath.addAll(computePath(lhs));
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldHeapPath.add(fld);
}
+
+ addMayWrittenSet(md, fieldLocTuple, fieldHeapPath);
+
}
}
}
break;
- case FKind.FlatFieldNode:
- case FKind.FlatElementNode: {
+ case FKind.FlatElementNode:
+ case FKind.FlatFieldNode: {
+
+ // x=y.f;
if (fn.kind() == FKind.FlatFieldNode) {
FlatFieldNode ffn = (FlatFieldNode) fn;
fld = getArrayField(td);
}
- if (fld.isStatic() && fld.isFinal()) {
- break;
- }
-
- // read field
- NTuple<Descriptor> srcHeapPath = mapHeapPath.get(rhs);
- if (srcHeapPath != null) {
- // if srcHeapPath is null, it means that it is not reachable from
- // callee's parameters. so just ignore it
-
- NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(srcHeapPath.getList());
-
- if (!fld.getType().isArray() && fld.getType().isImmutable()) {
+ NTuple<Location> locTuple = new NTuple<Location>();
- Location loc;
- if (fn.kind() == FKind.FlatElementNode) {
- // array element read case
- NTuple<Descriptor> newHeapPath = new NTuple<Descriptor>();
- for (int i = 0; i < fldHeapPath.size() - 1; i++) {
- newHeapPath.add(fldHeapPath.get(i));
- }
+ if (fld.isStatic()) {
- Descriptor desc = fldHeapPath.get(fldHeapPath.size() - 1);
- if (desc instanceof FieldDescriptor) {
- fld = (FieldDescriptor) desc;
- loc = getLocation(fld);
- fldHeapPath = newHeapPath;
- if (loc != null && ssjava.isSharedLocation(loc)) {
- curr.addRead(fldHeapPath, loc, fld);
- }
- }
- } else {
- loc = getLocation(fld);
- if (loc != null && ssjava.isSharedLocation(loc)) {
- curr.addRead(fldHeapPath, loc, fld);
- }
- }
+ if (fld.isFinal()) {
+ // in this case, fld has TOP location
+ Location topLocation = Location.createTopLocation(md);
+ locTuple.add(topLocation);
} else {
- // propagate rhs's heap path to the lhs
-
- if (fn.kind() == FKind.FlatElementNode) {
- mapDescToLocation.put(lhs, getLocation(rhs));
- } else {
- fldHeapPath.add(fld);
+ locTuple.addAll(deriveGlobalLocationTuple(md));
+ if (fn.kind() == FKind.FlatFieldNode) {
+ locTuple.add((Location) fld.getType().getExtension());
}
- mapHeapPath.put(lhs, fldHeapPath);
}
+ } else {
+ locTuple.addAll(deriveLocationTuple(md, rhs));
+ if (fn.kind() == FKind.FlatFieldNode) {
+ locTuple.add((Location) fld.getType().getExtension());
+ }
}
+ mapDescriptorToLocationPath.put(lhs, locTuple);
+
}
break;
FlatCall fc = (FlatCall) fn;
- // find out the set of callees
+ bindLocationPathCallerArgWithCalleeParam(md, fc);
+
+ }
+ break;
+
+ case FKind.FlatNew: {
+
+ FlatNew fnew = (FlatNew) fn;
+ TempDescriptor dst = fnew.getDst();
+ NTuple<Location> locTuple = deriveLocationTuple(md, dst);
+
+ if (locTuple != null) {
+ NTuple<Location> dstLocTuple = new NTuple<Location>();
+ dstLocTuple.addAll(locTuple);
+ mapDescriptorToLocationPath.put(dst, dstLocTuple);
+ }
+
+ }
+ break;
+ }
+ }
+
+ private void addMayWrittenSet(MethodDescriptor md, NTuple<Location> locTuple,
+ NTuple<Descriptor> heapPath) {
+
+ MultiSourceMap<NTuple<Location>, NTuple<Descriptor>> map = mapMethodToSharedLocCoverSet.get(md);
+ if (map == null) {
+ map = new MultiSourceMap<NTuple<Location>, NTuple<Descriptor>>();
+ mapMethodToSharedLocCoverSet.put(md, map);
+ }
+
+ Set<NTuple<Descriptor>> writeSet = map.get(locTuple);
+ if (writeSet == null) {
+ writeSet = new HashSet<NTuple<Descriptor>>();
+ map.put(locTuple, writeSet);
+ }
+ writeSet.add(heapPath);
+
+ }
+
+ private void bindLocationPathCallerArgWithCalleeParam(MethodDescriptor mdCaller, FlatCall fc) {
+
+ if (ssjava.isSSJavaUtil(fc.getMethod().getClassDesc())) {
+ // ssjava util case!
+ // have write effects on the first argument
+ TempDescriptor arg = fc.getArg(0);
+ NTuple<Location> argLocationPath = deriveLocationTuple(mdCaller, arg);
+ NTuple<Descriptor> argHeapPath = computePath(arg);
+ addMayWrittenSet(mdCaller, argLocationPath, argHeapPath);
+ } else if (ssjava.needTobeAnnotated(fc.getMethod())) {
+
+ // if arg is not primitive type, we need to propagate maywritten set to
+ // the caller's location path
+
MethodDescriptor mdCallee = fc.getMethod();
- FlatMethod fmCallee = state.getMethodFlat(mdCallee);
Set<MethodDescriptor> setPossibleCallees = new HashSet<MethodDescriptor>();
setPossibleCallees.addAll(callGraph.getMethods(mdCallee));
- possibleCalleeReadSummarySetToCaller.clear();
+ // create mapping from arg idx to its heap paths
+ Hashtable<Integer, NTuple<Descriptor>> mapArgIdx2CallerArgHeapPath =
+ new Hashtable<Integer, NTuple<Descriptor>>();
- for (Iterator iterator = setPossibleCallees.iterator(); iterator.hasNext();) {
- MethodDescriptor mdPossibleCallee = (MethodDescriptor) iterator.next();
- FlatMethod calleeFlatMethod = state.getMethodFlat(mdPossibleCallee);
+ // create mapping from arg idx to its location paths
+ Hashtable<Integer, NTuple<Location>> mapArgIdx2CallerArgLocationPath =
+ new Hashtable<Integer, NTuple<Location>>();
- addDependent(mdPossibleCallee, // callee
- caller); // caller
+ if (fc.getThis() != null) {
+
+ if (mapHeapPath.containsKey(fc.getThis())) {
- calleesToEnqueue.add(mdPossibleCallee);
+ // setup heap path for 'this'
+ NTuple<Descriptor> thisHeapPath = new NTuple<Descriptor>();
+ thisHeapPath.addAll(mapHeapPath.get(fc.getThis()));
+ mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
- // updates possible callee's initial summary using caller's read status
- bindHeapPathReadSummary(fc, calleeFlatMethod, curr);
+ // setup location path for 'this'
+ NTuple<Location> thisLocationPath = deriveLocationTuple(mdCaller, fc.getThis());
+ mapArgIdx2CallerArgLocationPath.put(Integer.valueOf(0), thisLocationPath);
+ }
}
- // contribute callee's writing effects to the caller
- mergeReadLocationAnaylsis(curr, possibleCalleeReadSummarySetToCaller);
+ for (int i = 0; i < fc.numArgs(); i++) {
+ TempDescriptor arg = fc.getArg(i);
+ // create mapping arg to loc path
+
+ if (mapHeapPath.containsKey(arg)) {
+ // setup heap path
+ NTuple<Descriptor> argHeapPath = mapHeapPath.get(arg);
+ mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(i + 1), argHeapPath);
+ // setup loc path
+ NTuple<Location> argLocationPath = deriveLocationTuple(mdCaller, arg);
+ mapArgIdx2CallerArgLocationPath.put(Integer.valueOf(i + 1), argLocationPath);
+ }
- }
- break;
+ }
+
+ for (Iterator iterator = setPossibleCallees.iterator(); iterator.hasNext();) {
+ MethodDescriptor callee = (MethodDescriptor) iterator.next();
+ FlatMethod calleeFlatMethod = state.getMethodFlat(callee);
+
+ // binding caller's args and callee's params
+
+ Hashtable<NTuple<Descriptor>, NTuple<Descriptor>> mapParamHeapPathToCallerArgHeapPath =
+ new Hashtable<NTuple<Descriptor>, NTuple<Descriptor>>();
+
+ Hashtable<Integer, TempDescriptor> mapParamIdx2ParamTempDesc =
+ new Hashtable<Integer, TempDescriptor>();
+ int offset = 0;
+ if (calleeFlatMethod.getMethod().isStatic()) {
+ // static method does not have implicit 'this' arg
+ offset = 1;
+ }
+
+ for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
+ TempDescriptor param = calleeFlatMethod.getParameter(i);
+ mapParamIdx2ParamTempDesc.put(Integer.valueOf(i + offset), param);
+
+ NTuple<Descriptor> calleeHeapPath = computePath(param);
+
+ NTuple<Descriptor> argHeapPath =
+ mapArgIdx2CallerArgHeapPath.get(Integer.valueOf(i + offset));
+
+ if (argHeapPath != null) {
+ mapParamHeapPathToCallerArgHeapPath.put(calleeHeapPath, argHeapPath);
+
+ }
+
+ }
+
+ Set<Integer> keySet = mapArgIdx2CallerArgLocationPath.keySet();
+ for (Iterator iterator2 = keySet.iterator(); iterator2.hasNext();) {
+ Integer idx = (Integer) iterator2.next();
+
+ NTuple<Location> callerArgLocationPath = mapArgIdx2CallerArgLocationPath.get(idx);
+
+ TempDescriptor calleeParam = mapParamIdx2ParamTempDesc.get(idx);
+ NTuple<Location> calleeLocationPath = deriveLocationTuple(mdCallee, calleeParam);
+
+ NTuple<Descriptor> callerArgHeapPath = mapArgIdx2CallerArgHeapPath.get(idx);
+ NTuple<Descriptor> calleeHeapPath = computePath(calleeParam);
+
+ if (!calleeParam.getType().isPrimitive()) {
+ createNewMappingOfMayWrittenSet(mdCaller, callee, callerArgHeapPath,
+ callerArgLocationPath, calleeHeapPath, calleeLocationPath,
+ mapParamHeapPathToCallerArgHeapPath);
+ }
+ }
+
+ }
- case FKind.FlatReturnNode: {
- returnNodeSet.add(fn);
}
- break;
+ }
+
+ private Hashtable<NTuple<Location>, Set<NTuple<Descriptor>>> getMappingByStartedWith(
+ MultiSourceMap<NTuple<Location>, NTuple<Descriptor>> map, NTuple<Location> in) {
+
+ Hashtable<NTuple<Location>, Set<NTuple<Descriptor>>> matchedMapping =
+ new Hashtable<NTuple<Location>, Set<NTuple<Descriptor>>>();
+
+ Set<NTuple<Location>> keySet = map.keySet();
+
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> key = (NTuple<Location>) iterator.next();
+ if (key.startsWith(in)) {
+ matchedMapping.put(key, map.get(key));
+ }
}
+
+ return matchedMapping;
+
}
- private void mergeReadLocationAnaylsis(ReadSummary curr, Set<ReadSummary> inSet) {
+ private void createNewMappingOfMayWrittenSet(MethodDescriptor caller, MethodDescriptor callee,
+ NTuple<Descriptor> callerArgHeapPath, NTuple<Location> callerArgLocPath,
+ NTuple<Descriptor> calleeParamHeapPath, NTuple<Location> calleeParamLocPath,
+ Hashtable<NTuple<Descriptor>, NTuple<Descriptor>> mapParamHeapPathToCallerArgHeapPath) {
- if (inSet.size() == 0) {
+ // propagate may-written-set associated with the key that is started with
+ // calleepath to the caller
+ // 1) makes a new key by combining caller path and callee path(except local
+ // loc element of param)
+ // 2) create new mapping of may-written-set of callee path to caller path
+
+ // extract all may written effect accessed through callee param path
+ MultiSourceMap<NTuple<Location>, NTuple<Descriptor>> calleeMapping =
+ mapMethodToSharedLocCoverSet.get(callee);
+
+ if (calleeMapping == null) {
return;
}
- for (Iterator inIterator = inSet.iterator(); inIterator.hasNext();) {
- ReadSummary inSummary = (ReadSummary) inIterator.next();
- curr.merge(inSummary);
+ MultiSourceMap<NTuple<Location>, NTuple<Descriptor>> callerMapping =
+ mapMethodToSharedLocCoverSet.get(caller);
+
+ if (callerMapping == null) {
+ callerMapping = new MultiSourceMap<NTuple<Location>, NTuple<Descriptor>>();
+ mapMethodToSharedLocCoverSet.put(caller, callerMapping);
}
- }
+ Hashtable<NTuple<Location>, Set<NTuple<Descriptor>>> paramMapping =
+ getMappingByStartedWith(calleeMapping, calleeParamLocPath);
+
+ Set<NTuple<Location>> calleeKeySet = paramMapping.keySet();
+
+ for (Iterator iterator = calleeKeySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> calleeKey = (NTuple<Location>) iterator.next();
+
+ Set<NTuple<Descriptor>> calleeMayWriteSet = paramMapping.get(calleeKey);
+
+ if (calleeMayWriteSet != null) {
+
+ Set<NTuple<Descriptor>> boundMayWriteSet = new HashSet<NTuple<Descriptor>>();
- private boolean hasReadingEffectOnSharedLocation(MethodDescriptor md, NTuple<Descriptor> hp,
- Location loc, Descriptor d) {
+ Set<NTuple<Descriptor>> boundSet =
+ convertToCallerMayWriteSet(calleeParamHeapPath, calleeMayWriteSet, callerMapping,
+ mapParamHeapPathToCallerArgHeapPath);
- ReadSummary summary = mapMethodDescriptorToReadSummary.get(md);
+ boundMayWriteSet.addAll(boundSet);
- if (summary != null) {
- Hashtable<Location, Set<Descriptor>> map = summary.get(hp);
- if (map != null) {
- Set<Descriptor> descSec = map.get(loc);
- if (descSec != null) {
- return descSec.contains(d);
+ NTuple<Location> newKey = new NTuple<Location>();
+ newKey.addAll(callerArgLocPath);
+ // need to replace the local location with the caller's path so skip the
+ // local location of the parameter
+ for (int i = 1; i < calleeKey.size(); i++) {
+ newKey.add(calleeKey.get(i));
}
+
+ callerMapping.union(newKey, boundMayWriteSet);
}
+
}
- return false;
}
+ private Set<NTuple<Descriptor>> convertToCallerMayWriteSet(
+ NTuple<Descriptor> calleeParamHeapPath, Set<NTuple<Descriptor>> calleeMayWriteSet,
+ MultiSourceMap<NTuple<Location>, NTuple<Descriptor>> callerMapping,
+ Hashtable<NTuple<Descriptor>, NTuple<Descriptor>> mapParamHeapPathToCallerArgHeapPath) {
+
+ Set<NTuple<Descriptor>> boundSet = new HashSet<NTuple<Descriptor>>();
+
+ // replace callee's param path with caller's arg path
+ for (Iterator iterator = calleeMayWriteSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> calleeWriteHeapPath = (NTuple<Descriptor>) iterator.next();
+
+ NTuple<Descriptor> writeHeapPathParamHeapPath = calleeWriteHeapPath.subList(0, 1);
+
+ NTuple<Descriptor> callerArgHeapPath =
+ mapParamHeapPathToCallerArgHeapPath.get(writeHeapPathParamHeapPath);
+
+ NTuple<Descriptor> boundHeapPath = new NTuple<Descriptor>();
+ boundHeapPath.addAll(callerArgHeapPath);
+
+ for (int i = 1; i < calleeWriteHeapPath.size(); i++) {
+ boundHeapPath.add(calleeWriteHeapPath.get(i));
+ }
+
+ boundSet.add(boundHeapPath);
+
+ }
+
+ return boundSet;
+ }
+
private Location getLocation(Descriptor d) {
if (d instanceof FieldDescriptor) {
if (te != null) {
if (te instanceof SSJavaType) {
SSJavaType ssType = (SSJavaType) te;
- CompositeLocation comp = ssType.getCompLoc();
- return comp.get(comp.getSize() - 1);
+ if (ssType.getCompLoc() != null) {
+ CompositeLocation comp = ssType.getCompLoc();
+ return comp.get(comp.getSize() - 1);
+ } else {
+ return null;
+ }
} else {
return (Location) te;
}
return mapDescToLocation.get(d);
}
- private void writeLocation(MethodDescriptor md, ClearingSummary curr, NTuple<Descriptor> hp,
- Location loc, Descriptor d) {
-
- SharedStatus state = getState(curr, hp);
- if (loc != null && hasReadingEffectOnSharedLocation(md, hp, loc, d)) {
- // 1. add field x to the clearing set
-
- state.addVar(loc, d);
-
- // 3. if the set v contains all of variables belonging to the shared
- // location, set flag to true
- if (isOverWrittenAllDescsOfSharedLoc(md, hp, loc, state.getVarSet(loc))) {
- state.updateFlag(loc, true);
- }
- }
- state.setWriteEffect(loc);
-
- }
-
- private boolean isOverWrittenAllDescsOfSharedLoc(MethodDescriptor md, NTuple<Descriptor> hp,
- Location loc, Set<Descriptor> writtenSet) {
-
- ReadSummary summary = mapMethodDescriptorToReadSummary.get(md);
-
- if (summary != null) {
- Hashtable<Location, Set<Descriptor>> map = summary.get(hp);
- if (map != null) {
- Set<Descriptor> descSet = map.get(loc);
- if (descSet != null) {
- return writtenSet.containsAll(descSet);
- }
- }
- }
- return false;
- }
-
- private void readLocation(MethodDescriptor md, ClearingSummary curr, NTuple<Descriptor> hp,
- Location loc, Descriptor d) {
- // remove reading var x from written set
- if (loc != null && hasReadingEffectOnSharedLocation(md, hp, loc, d)) {
- SharedStatus state = getState(curr, hp);
- state.removeVar(loc, d);
- }
- }
-
- private SharedStatus getState(ClearingSummary curr, NTuple<Descriptor> hp) {
- SharedStatus state = curr.get(hp);
- if (state == null) {
- state = new SharedStatus();
- curr.put(hp, state);
- }
- return state;
- }
-
private void eventLoopAnalysis() {
// perform second stage analysis: intraprocedural analysis ensure that
// all
// variables are definitely written in-between the same read
Set<FlatNode> flatNodesToVisit = new HashSet<FlatNode>();
- flatNodesToVisit.add(ssjavaLoopEntrance);
+ flatNodesToVisit.add(ssjava.getSSJavaLoopEntrance());
while (!flatNodesToVisit.isEmpty()) {
FlatNode fn = (FlatNode) flatNodesToVisit.iterator().next();
}
}
- eventLoopAnalysis_nodeAction(fn, curr, ssjavaLoopEntrance);
+ eventLoopAnalysis_nodeAction(fn, curr, ssjava.getSSJavaLoopEntrance());
// if a new result, schedule forward nodes for analysis
if (!curr.equals(prev)) {
private void eventLoopAnalysis_nodeAction(FlatNode fn,
Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr, FlatNode loopEntrance) {
- Hashtable<NTuple<Descriptor>, Set<WriteAge>> KILLSet =
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> readWriteKillSet =
new Hashtable<NTuple<Descriptor>, Set<WriteAge>>();
- Hashtable<NTuple<Descriptor>, Set<WriteAge>> GENSet =
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> readWriteGenSet =
new Hashtable<NTuple<Descriptor>, Set<WriteAge>>();
if (fn.equals(loopEntrance)) {
}
}
- // System.out.println("EVENT LOOP ENTRY=" + curr);
} else {
TempDescriptor lhs;
lhs = fon.getDest();
rhs = fon.getLeft();
- if (!lhs.getSymbol().startsWith("neverused")) {
- NTuple<Descriptor> rhsHeapPath = computePath(rhs);
- if (!rhs.getType().isImmutable()) {
- mapHeapPath.put(lhs, rhsHeapPath);
- } else {
- // write(lhs)
- // NTuple<Descriptor> lhsHeapPath = computePath(lhs);
- NTuple<Descriptor> path = new NTuple<Descriptor>();
- path.add(lhs);
+ if (fon.getOp().getOp() == Operation.ASSIGN) {
+
+ if (!lhs.getSymbol().startsWith("neverused") && !lhs.getSymbol().startsWith("leftop")
+ && !lhs.getSymbol().startsWith("rightop")) {
+
+ boolean hasWriteEffect = false;
+
+ if (rhs.getType().getExtension() instanceof SSJavaType
+ && lhs.getType().getExtension() instanceof SSJavaType) {
+
+ CompositeLocation rhsCompLoc =
+ ((SSJavaType) rhs.getType().getExtension()).getCompLoc();
+
+ CompositeLocation lhsCompLoc =
+ ((SSJavaType) lhs.getType().getExtension()).getCompLoc();
+
+ if (lhsCompLoc != rhsCompLoc) {
+ // have a write effect!
+ hasWriteEffect = true;
+ }
+
+ } else if (lhs.getType().isImmutable()) {
+ hasWriteEffect = true;
+ }
+
+ if (hasWriteEffect && mapHeapPath.containsKey(lhs)) {
+ // write(lhs)
+ NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
+ lhsHeapPath.addAll(mapHeapPath.get(lhs));
- // System.out.println("WRITE VARIABLE=" + path + " from=" + lhs);
+ Location lhsLoc = getLocation(lhs);
+ if (ssjava.isSharedLocation(lhsLoc)) {
- computeKILLSetForWrite(curr, path, KILLSet);
- computeGENSetForWrite(path, GENSet);
+ NTuple<Descriptor> varHeapPath = computePath(lhs);
+ NTuple<Location> varLocTuple = mapDescriptorToLocationPath.get(lhs);
- // System.out.println("#VARIABLE WRITE:" + fn);
- // System.out.println("#KILLSET=" + KILLSet);
- // System.out.println("#GENSet=" + GENSet);
+ Set<NTuple<Descriptor>> writtenSet =
+ mapFlatNodeToSharedLocMapping.get(fn).get(varLocTuple);
+
+ Set<NTuple<Descriptor>> mustClearSet =
+ mapFlatNodeToMustClearMap.get(fn).get(varLocTuple);
+
+ if (isCovered(varLocTuple, writtenSet, mustClearSet)) {
+ computeKILLSetForSharedWrite(curr, writtenSet, readWriteKillSet);
+ computeGENSetForSharedAllCoverWrite(curr, writtenSet, readWriteGenSet);
+ } else {
+ computeGENSetForSharedNonCoverWrite(curr, varHeapPath, readWriteGenSet);
+ }
+
+ } else {
+
+ computeKILLSetForWrite(curr, lhsHeapPath, readWriteKillSet);
+ computeGENSetForWrite(lhsHeapPath, readWriteGenSet);
+ }
+
+ Set<WriteAge> writeAgeSet = curr.get(lhsHeapPath);
+ checkWriteAgeSet(writeAgeSet, lhsHeapPath, fn);
+ }
}
+
}
}
fldHeapPath.add(fld);
Set<WriteAge> writeAgeSet = curr.get(fldHeapPath);
+
checkWriteAgeSet(writeAgeSet, fldHeapPath, fn);
}
fld = getArrayField(td);
}
- // write(field)
- NTuple<Descriptor> lhsHeapPath = computePath(lhs);
- NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(lhsHeapPath.getList());
- fldHeapPath.add(fld);
+ // set up heap path
+ NTuple<Descriptor> lhsHeapPath = mapHeapPath.get(lhs);
+ if (lhsHeapPath != null) {
+ // write(field)
+ NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(lhsHeapPath.getList());
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fldHeapPath.add(fld);
+ }
+
+ // shared loc extension
+ Location fieldLoc;
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLoc = (Location) fld.getType().getExtension();
+ } else {
+ NTuple<Location> locTuple = mapDescriptorToLocationPath.get(lhs);
+ fieldLoc = locTuple.get(locTuple.size() - 1);
+ }
+
+ if (ssjava.isSharedLocation(fieldLoc)) {
+
+ NTuple<Location> fieldLocTuple = new NTuple<Location>();
+ fieldLocTuple.addAll(mapDescriptorToLocationPath.get(lhs));
+ if (fn.kind() == FKind.FlatSetFieldNode) {
+ fieldLocTuple.add(fieldLoc);
+ }
+
+ Set<NTuple<Descriptor>> writtenSet =
+ mapFlatNodeToSharedLocMapping.get(fn).get(fieldLocTuple);
+ if (isCovered(fieldLocTuple, writtenSet)) {
+ computeKILLSetForSharedWrite(curr, writtenSet, readWriteKillSet);
+ computeGENSetForSharedAllCoverWrite(curr, writtenSet, readWriteGenSet);
+ } else {
+ computeGENSetForSharedNonCoverWrite(curr, fldHeapPath, readWriteGenSet);
+ }
+
+ } else {
+ computeKILLSetForWrite(curr, fldHeapPath, readWriteKillSet);
+ computeGENSetForWrite(fldHeapPath, readWriteGenSet);
+ }
+
+ }
+
+ }
+ break;
+
+ case FKind.FlatCall: {
+ FlatCall fc = (FlatCall) fn;
+ SharedLocMap sharedLocMap = mapFlatNodeToSharedLocMapping.get(fc);
+ SharedLocMap mustClearMap = mapFlatNodeToMustClearMap.get(fc);
+ generateKILLSetForFlatCall(fc, curr, sharedLocMap, mustClearMap, readWriteKillSet);
+ generateGENSetForFlatCall(fc, sharedLocMap, mustClearMap, readWriteGenSet);
+
+ }
+ break;
+
+ }
+
+ computeNewMapping(curr, readWriteKillSet, readWriteGenSet);
+ if (fn instanceof FlatCall) {
+ checkManyRead((FlatCall) fn, curr);
+ }
+
+ }
+
+ }
+
+ private void computeGENSetForSharedNonCoverWrite(
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr, NTuple<Descriptor> heapPath,
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> genSet) {
+
+ Set<WriteAge> writeAgeSet = genSet.get(heapPath);
+ if (writeAgeSet == null) {
+ writeAgeSet = new HashSet<WriteAge>();
+ genSet.put(heapPath, writeAgeSet);
+ }
+
+ writeAgeSet.add(new WriteAge(1));
+
+ }
+
+ private void computeGENSetForSharedAllCoverWrite(
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr, Set<NTuple<Descriptor>> writtenSet,
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> genSet) {
+
+ for (Iterator iterator = writtenSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> writeHeapPath = (NTuple<Descriptor>) iterator.next();
+
+ Set<WriteAge> writeAgeSet = new HashSet<WriteAge>();
+ writeAgeSet.add(new WriteAge(0));
+
+ genSet.put(writeHeapPath, writeAgeSet);
+ }
+
+ }
+
+ private void computeKILLSetForSharedWrite(Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr,
+ Set<NTuple<Descriptor>> writtenSet, Hashtable<NTuple<Descriptor>, Set<WriteAge>> killSet) {
+
+ for (Iterator iterator = writtenSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> writeHeapPath = (NTuple<Descriptor>) iterator.next();
+ Set<WriteAge> writeSet = curr.get(writeHeapPath);
+ if (writeSet != null) {
+ killSet.put(writeHeapPath, writeSet);
+ }
+ }
+
+ }
+
+ private boolean isCovered(NTuple<Location> locTuple, Set<NTuple<Descriptor>> curWrittenSet) {
+
+ Set<NTuple<Descriptor>> coverSet =
+ mapMethodToSharedLocCoverSet.get(methodContainingSSJavaLoop).get(locTuple);
+
+ if (curWrittenSet == null) {
+ return false;
+ }
+
+ return curWrittenSet.containsAll(coverSet);
+ }
+
+ private boolean isCovered(NTuple<Location> locTuple, Set<NTuple<Descriptor>> curWrittenSet,
+ Set<NTuple<Descriptor>> mustClearSet) {
+
+ Set<NTuple<Descriptor>> coverSet =
+ mapMethodToSharedLocCoverSet.get(methodContainingSSJavaLoop).get(locTuple);
+
+ if (mustClearSet != null && mustClearSet.containsAll(coverSet)) {
+ return true;
+ }
+
+ if (curWrittenSet == null) {
+ return false;
+ }
+
+ return curWrittenSet.containsAll(coverSet);
+ }
+
+ private void checkManyRead(FlatCall fc, Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr) {
+ Set<NTuple<Descriptor>> boundReadSet = mapFlatNodeToBoundReadSet.get(fc);
+ for (Iterator iterator = boundReadSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> readHeapPath = (NTuple<Descriptor>) iterator.next();
+ Set<WriteAge> writeAgeSet = curr.get(readHeapPath);
+ checkWriteAgeSet(writeAgeSet, readHeapPath, fc);
+ }
+
+ }
+
+ private void checkWriteAgeSet(Set<WriteAge> writeAgeSet, NTuple<Descriptor> path, FlatNode fn) {
+
+ if (writeAgeSet != null) {
+ for (Iterator iterator = writeAgeSet.iterator(); iterator.hasNext();) {
+ WriteAge writeAge = (WriteAge) iterator.next();
+ if (writeAge.getAge() > MAXAGE) {
+ generateErrorMessage(path, fn);
+ }
+ }
+ }
+ }
+
+ private void generateErrorMessage(NTuple<Descriptor> path, FlatNode fn) {
+
+ Descriptor lastDesc = path.get(getArrayBaseDescriptorIdx(path));
+ if (ssjava.isSharedLocation(getLocation(lastDesc))) {
+
+ NTuple<Location> locPathTuple = getLocationTuple(path);
+ Set<NTuple<Descriptor>> coverSet =
+ mapMethodToSharedLocCoverSet.get(methodContainingSSJavaLoop).get(locPathTuple);
+ throw new Error("Shared memory locations, which is reachable through references " + path
+ + ", are not completely overwritten by the higher values at "
+ + methodContainingSSJavaLoop.getClassDesc().getSourceFileName() + "::" + fn.getNumLine()
+ + ".\nThe following memory locations belong to the same shared locations:" + coverSet);
+
+ } else {
+ throw new Error(
+ "Memory location, which is reachable through references "
+ + path
+ + ", who comes back to the same read statement without being overwritten at the out-most iteration at "
+ + methodContainingSSJavaLoop.getClassDesc().getSourceFileName() + "::"
+ + fn.getNumLine());
+ }
+
+ }
+
+ private void generateGENSetForFlatCall(FlatCall fc, SharedLocMap sharedLocMap,
+ SharedLocMap mustClearMap, Hashtable<NTuple<Descriptor>, Set<WriteAge>> GENSet) {
+
+ Set<NTuple<Descriptor>> boundMayWriteSet = mapFlatNodeToBoundMayWriteSet.get(fc);
+
+ for (Iterator iterator = boundMayWriteSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> heapPath = (NTuple<Descriptor>) iterator.next();
+
+ if (!isSharedLocation(heapPath)) {
+ addWriteAgeToSet(heapPath, GENSet, new WriteAge(0));
+ } else {
+ // if the current heap path is shared location
+
+ NTuple<Location> locTuple = getLocationTuple(heapPath);
+
+ Set<NTuple<Descriptor>> sharedWriteHeapPathSet = sharedLocMap.get(locTuple);
+
+ if (isCovered(locTuple, sharedLocMap.get(locTuple), mustClearMap.get(locTuple))) {
+ // if it is covered, add all of heap paths belong to the same shared
+ // loc with write age 0
+ for (Iterator iterator2 = sharedWriteHeapPathSet.iterator(); iterator2.hasNext();) {
+ NTuple<Descriptor> sharedHeapPath = (NTuple<Descriptor>) iterator2.next();
+ addWriteAgeToSet(sharedHeapPath, GENSet, new WriteAge(0));
+ }
+
+ } else {
+ // if not covered, add write age 1 to the heap path that is
+ // may-written but not covered
+ addWriteAgeToSet(heapPath, GENSet, new WriteAge(1));
+ }
+
+ }
- computeKILLSetForWrite(curr, fldHeapPath, KILLSet);
- computeGENSetForWrite(fldHeapPath, GENSet);
+ }
- // System.out.println("FIELD WRITE:" + fn);
- // System.out.println("KILLSET=" + KILLSet);
- // System.out.println("GENSet=" + GENSet);
+ }
- }
- break;
+ private void addWriteAgeToSet(NTuple<Descriptor> heapPath,
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> map, WriteAge age) {
- case FKind.FlatCall: {
- FlatCall fc = (FlatCall) fn;
+ Set<WriteAge> currSet = map.get(heapPath);
+ if (currSet == null) {
+ currSet = new HashSet<WriteAge>();
+ map.put(heapPath, currSet);
+ }
- generateKILLSetForFlatCall(fc, curr, KILLSet);
- generateGENSetForFlatCall(fc, GENSet);
+ currSet.add(age);
+ }
- // System.out.println("FLATCALL:" + fn);
- // System.out.println("KILLSET=" + KILLSet);
- // System.out.println("GENSet=" + GENSet);
+ private void generateKILLSetForFlatCall(FlatCall fc,
+ Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr, SharedLocMap sharedLocMap,
+ SharedLocMap mustClearMap, Hashtable<NTuple<Descriptor>, Set<WriteAge>> KILLSet) {
- }
- break;
+ Set<NTuple<Descriptor>> boundMustWriteSet = mapFlatNodeToBoundMustWriteSet.get(fc);
- }
+ for (Iterator iterator = boundMustWriteSet.iterator(); iterator.hasNext();) {
+ NTuple<Descriptor> heapPath = (NTuple<Descriptor>) iterator.next();
+
+ if (isSharedLocation(heapPath)) {
+ NTuple<Location> locTuple = getLocationTuple(heapPath);
+
+ if (isCovered(locTuple, sharedLocMap.get(locTuple), mustClearMap.get(locTuple))
+ && curr.containsKey(heapPath)) {
+ // if it is shared loc and corresponding shared loc has been covered
+ KILLSet.put(heapPath, curr.get(heapPath));
+ }
+ } else {
+
+ for (Enumeration<NTuple<Descriptor>> e = curr.keys(); e.hasMoreElements();) {
+ NTuple<Descriptor> key = e.nextElement();
+ if (key.startsWith(heapPath)) {
+ KILLSet.put(key, curr.get(key));
+ }
+ }
- computeNewMapping(curr, KILLSet, GENSet);
- // System.out.println("#######" + curr);
+ }
}
}
- private void checkWriteAgeSet(Set<WriteAge> writeAgeSet, NTuple<Descriptor> path, FlatNode fn) {
- if (writeAgeSet != null) {
- for (Iterator iterator = writeAgeSet.iterator(); iterator.hasNext();) {
- WriteAge writeAge = (WriteAge) iterator.next();
- if (writeAge.getAge() >= MAXAGE) {
- throw new Error(
- "Memory location, which is reachable through references "
- + path
- + ", who comes back to the same read statement without being overwritten at the out-most iteration at "
- + methodContainingSSJavaLoop.getClassDesc().getSourceFileName() + "::"
- + fn.getNumLine());
- }
+ private int getArrayBaseDescriptorIdx(NTuple<Descriptor> heapPath) {
+
+ for (int i = heapPath.size() - 1; i >= 0; i--) {
+ if (!heapPath.get(i).getSymbol().equals(arrayElementFieldName)) {
+ return i;
}
}
+
+ return -1;
+
}
- private void generateGENSetForFlatCall(FlatCall fc,
- Hashtable<NTuple<Descriptor>, Set<WriteAge>> GENSet) {
+ private boolean isSharedLocation(NTuple<Descriptor> heapPath) {
- Set<NTuple<Descriptor>> boundMayWriteSet = mapFlatNodeToBoundMayWriteSet.get(fc);
+ Descriptor d = heapPath.get(getArrayBaseDescriptorIdx(heapPath));
- for (Iterator iterator = boundMayWriteSet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> key = (NTuple<Descriptor>) iterator.next();
- // TODO: shared location
- Set<WriteAge> set = new HashSet<WriteAge>();
- set.add(new WriteAge(0));
- GENSet.put(key, set);
- }
+ return ssjava.isSharedLocation(getLocation(heapPath.get(getArrayBaseDescriptorIdx(heapPath))));
}
- private void generateKILLSetForFlatCall(FlatCall fc,
- Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr,
- Hashtable<NTuple<Descriptor>, Set<WriteAge>> KILLSet) {
+ private NTuple<Location> getLocationTuple(NTuple<Descriptor> heapPath) {
- Set<NTuple<Descriptor>> boundMustWriteSet = mapFlatNodeToBoundMustWriteSet.get(fc);
+ NTuple<Location> locTuple = new NTuple<Location>();
- for (Iterator iterator = boundMustWriteSet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> key = (NTuple<Descriptor>) iterator.next();
- // TODO: shared location
- if (curr.get(key) != null) {
- KILLSet.put(key, curr.get(key));
- }
+ locTuple.addAll(mapDescriptorToLocationPath.get(heapPath.get(0)));
+
+ for (int i = 1; i <= getArrayBaseDescriptorIdx(heapPath); i++) {
+ locTuple.add(getLocation(heapPath.get(i)));
}
+ return locTuple;
}
private void computeNewMapping(Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr,
for (Enumeration<NTuple<Descriptor>> e = GENSet.keys(); e.hasMoreElements();) {
NTuple<Descriptor> key = e.nextElement();
- curr.put(key, GENSet.get(key));
+
+ Set<WriteAge> currWriteAgeSet = curr.get(key);
+ if (currWriteAgeSet == null) {
+ currWriteAgeSet = new HashSet<WriteAge>();
+ curr.put(key, currWriteAgeSet);
+ }
+ currWriteAgeSet.addAll(GENSet.get(key));
}
}
}
- private void readValue(FlatNode fn, NTuple<Descriptor> hp,
- Hashtable<NTuple<Descriptor>, Hashtable<FlatNode, Boolean>> curr) {
- Hashtable<FlatNode, Boolean> gen = curr.get(hp);
- if (gen == null) {
- gen = new Hashtable<FlatNode, Boolean>();
- curr.put(hp, gen);
- }
- Boolean currentStatus = gen.get(fn);
- if (currentStatus == null) {
- gen.put(fn, Boolean.FALSE);
- } else {
- checkFlag(currentStatus.booleanValue(), fn, hp);
- }
-
- }
-
private void computeKILLSetForWrite(Hashtable<NTuple<Descriptor>, Set<WriteAge>> curr,
NTuple<Descriptor> hp, Hashtable<NTuple<Descriptor>, Set<WriteAge>> KILLSet) {
}
- private void bindHeapPathCallerArgWithCaleeParam(FlatCall fc) {
+ private void bindHeapPathCallerArgWithCalleeParam(FlatCall fc) {
// compute all possible callee set
// transform all READ/WRITE set from the any possible
// callees to the caller
// arg idx is starting from 'this' arg
if (fc.getThis() != null) {
NTuple<Descriptor> thisHeapPath = mapHeapPath.get(fc.getThis());
- if (thisHeapPath == null) {
- // method is called without creating new flat node representing 'this'
- thisHeapPath = new NTuple<Descriptor>();
- thisHeapPath.add(fc.getThis());
+ if (thisHeapPath != null) {
+ // if 'this' does not have heap path, it is local reference
+ mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
}
-
- mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
}
for (int i = 0; i < fc.numArgs(); i++) {
}
- private void checkFlag(boolean booleanValue, FlatNode fn, NTuple<Descriptor> hp) {
- if (booleanValue) {
- // the definitely written analysis only takes care about locations that
- // are written to inside of the SSJava loop
- for (Iterator iterator = calleeUnionBoundMayWriteSet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> write = (NTuple<Descriptor>) iterator.next();
- if (hp.startsWith(write)) {
- // it has write effect!
- // throw new Error(
- System.out
- .println("###"
- + "There is a variable, which is reachable through references "
- + hp
- + ", who comes back to the same read statement without being overwritten at the out-most iteration at "
- + methodContainingSSJavaLoop.getClassDesc().getSourceFileName() + "::"
- + fn.getNumLine());
- debugcount++;
+ private void bindHeapPathCallerArgWithCaleeParamForSharedLoc(MethodDescriptor mdCaller,
+ FlatCall fc) {
+
+ calleeIntersectBoundSharedSet.clear();
+ calleeUnionBoundDeleteSet.clear();
+
+ if (ssjava.isSSJavaUtil(fc.getMethod().getClassDesc())) {
+ // ssjava util case!
+ // have write effects on the first argument
+ TempDescriptor arg = fc.getArg(0);
+ NTuple<Descriptor> argHeapPath = computePath(arg);
+
+ // convert heap path to location path
+ NTuple<Location> argLocTuple = new NTuple<Location>();
+ argLocTuple.addAll(deriveLocationTuple(mdCaller, (TempDescriptor) argHeapPath.get(0)));
+ for (int i = 1; i < argHeapPath.size(); i++) {
+ argLocTuple.add(getLocation(argHeapPath.get(i)));
+ }
+
+ calleeIntersectBoundSharedSet.addWrite(argLocTuple, argHeapPath);
+
+ } else if (ssjava.needTobeAnnotated(fc.getMethod())) {
+
+ // if arg is not primitive type, we need to propagate maywritten set to
+ // the caller's location path
+
+ MethodDescriptor mdCallee = fc.getMethod();
+ Set<MethodDescriptor> setPossibleCallees = new HashSet<MethodDescriptor>();
+ setPossibleCallees.addAll(callGraph.getMethods(mdCallee));
+
+ // create mapping from arg idx to its heap paths
+ Hashtable<Integer, NTuple<Descriptor>> mapArgIdx2CallerArgHeapPath =
+ new Hashtable<Integer, NTuple<Descriptor>>();
+
+ // arg idx is starting from 'this' arg
+ if (fc.getThis() != null) {
+ NTuple<Descriptor> thisHeapPath = mapHeapPath.get(fc.getThis());
+ if (thisHeapPath == null) {
+ // method is called without creating new flat node representing 'this'
+ thisHeapPath = new NTuple<Descriptor>();
+ thisHeapPath.add(fc.getThis());
+ }
+
+ mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(0), thisHeapPath);
+ }
+
+ for (int i = 0; i < fc.numArgs(); i++) {
+ TempDescriptor arg = fc.getArg(i);
+ NTuple<Descriptor> argHeapPath = computePath(arg);
+ mapArgIdx2CallerArgHeapPath.put(Integer.valueOf(i + 1), argHeapPath);
+ }
+
+ // create mapping from arg idx to its location paths
+ Hashtable<Integer, NTuple<Location>> mapArgIdx2CallerAgLocationPath =
+ new Hashtable<Integer, NTuple<Location>>();
+
+ // arg idx is starting from 'this' arg
+ if (fc.getThis() != null) {
+ NTuple<Location> thisLocationPath = deriveLocationTuple(fc.getMethod(), fc.getThis());
+ if (thisLocationPath != null) {
+ mapArgIdx2CallerAgLocationPath.put(Integer.valueOf(0), thisLocationPath);
+ }
+ }
+
+ for (int i = 0; i < fc.numArgs(); i++) {
+ TempDescriptor arg = fc.getArg(i);
+ NTuple<Location> argLocationPath = deriveLocationTuple(mdCaller, arg);
+ if (argLocationPath != null) {
+ mapArgIdx2CallerAgLocationPath.put(Integer.valueOf(i + 1), argLocationPath);
+ }
+ }
+
+ for (Iterator iterator = setPossibleCallees.iterator(); iterator.hasNext();) {
+ MethodDescriptor callee = (MethodDescriptor) iterator.next();
+ FlatMethod calleeFlatMethod = state.getMethodFlat(callee);
+
+ // binding caller's args and callee's params
+
+ Hashtable<Integer, TempDescriptor> mapParamIdx2ParamTempDesc =
+ new Hashtable<Integer, TempDescriptor>();
+ int offset = 0;
+ if (calleeFlatMethod.getMethod().isStatic()) {
+ // static method does not have implicit 'this' arg
+ offset = 1;
+ }
+ for (int i = 0; i < calleeFlatMethod.numParameters(); i++) {
+ TempDescriptor param = calleeFlatMethod.getParameter(i);
+ mapParamIdx2ParamTempDesc.put(Integer.valueOf(i + offset), param);
+ }
+
+ Set<Integer> keySet = mapArgIdx2CallerAgLocationPath.keySet();
+ for (Iterator iterator2 = keySet.iterator(); iterator2.hasNext();) {
+ Integer idx = (Integer) iterator2.next();
+ NTuple<Location> callerArgLocationPath = mapArgIdx2CallerAgLocationPath.get(idx);
+ NTuple<Descriptor> callerArgHeapPath = mapArgIdx2CallerArgHeapPath.get(idx);
+
+ TempDescriptor calleeParam = mapParamIdx2ParamTempDesc.get(idx);
+ NTuple<Location> calleeLocationPath = deriveLocationTuple(mdCallee, calleeParam);
+ SharedLocMap calleeDeleteSet = mapFlatMethodToDeleteSet.get(calleeFlatMethod);
+ SharedLocMap calleeSharedLocMap = mapFlatMethodToSharedLocMap.get(calleeFlatMethod);
+ SharedLocMap calleeMustClearMap = mapFlatMethodToMustClearMap.get(calleeFlatMethod);
+
+ if (calleeDeleteSet != null) {
+ createNewMappingOfDeleteSet(callerArgLocationPath, callerArgHeapPath,
+ calleeLocationPath, calleeDeleteSet);
+ }
+
+ if (calleeSharedLocMap != null) {
+ createNewMappingOfSharedSet(callerArgLocationPath, callerArgHeapPath,
+ calleeLocationPath, calleeSharedLocMap);
+ }
+
+ if (calleeMustClearMap != null) {
+ createNewMappingOfMustClearMap(callerArgLocationPath, callerArgHeapPath,
+ calleeLocationPath, calleeMustClearMap);
+ }
+
}
+
+ }
+ }
+
+ }
+
+ private void createNewMappingOfMustClearMap(NTuple<Location> callerArgLocationPath,
+ NTuple<Descriptor> callerArgHeapPath, NTuple<Location> calleeLocationPath,
+ SharedLocMap calleeMustClearMap) {
+
+ SharedLocMap calleeParamSharedSet =
+ calleeMustClearMap.getHeapPathStartedWith(calleeLocationPath);
+
+ Set<NTuple<Location>> keySet = calleeParamSharedSet.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> calleeLocTupleKey = (NTuple<Location>) iterator.next();
+ Set<NTuple<Descriptor>> heapPathSet = calleeParamSharedSet.get(calleeLocTupleKey);
+ Set<NTuple<Descriptor>> boundHeapPathSet = new HashSet<NTuple<Descriptor>>();
+ for (Iterator iterator2 = heapPathSet.iterator(); iterator2.hasNext();) {
+ NTuple<Descriptor> calleeHeapPath = (NTuple<Descriptor>) iterator2.next();
+ boundHeapPathSet.add(bindHeapPath(callerArgHeapPath, calleeHeapPath));
+ }
+ calleeIntersectBoundMustClearSet.intersect(
+ bindLocationPath(callerArgLocationPath, calleeLocTupleKey), boundHeapPathSet);
+ }
+
+ }
+
+ private void createNewMappingOfDeleteSet(NTuple<Location> callerArgLocationPath,
+ NTuple<Descriptor> callerArgHeapPath, NTuple<Location> calleeLocationPath,
+ SharedLocMap calleeDeleteSet) {
+
+ SharedLocMap calleeParamDeleteSet = calleeDeleteSet.getHeapPathStartedWith(calleeLocationPath);
+
+ Set<NTuple<Location>> keySet = calleeParamDeleteSet.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> calleeLocTupleKey = (NTuple<Location>) iterator.next();
+ Set<NTuple<Descriptor>> heapPathSet = calleeParamDeleteSet.get(calleeLocTupleKey);
+ for (Iterator iterator2 = heapPathSet.iterator(); iterator2.hasNext();) {
+ NTuple<Descriptor> calleeHeapPath = (NTuple<Descriptor>) iterator2.next();
+ calleeUnionBoundDeleteSet.addWrite(
+ bindLocationPath(callerArgLocationPath, calleeLocTupleKey),
+ bindHeapPath(callerArgHeapPath, calleeHeapPath));
+ }
+ }
+
+ }
+
+ private void createNewMappingOfSharedSet(NTuple<Location> callerArgLocationPath,
+ NTuple<Descriptor> callerArgHeapPath, NTuple<Location> calleeLocationPath,
+ SharedLocMap calleeSharedLocMap) {
+
+ SharedLocMap calleeParamSharedSet =
+ calleeSharedLocMap.getHeapPathStartedWith(calleeLocationPath);
+
+ Set<NTuple<Location>> keySet = calleeParamSharedSet.keySet();
+ for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
+ NTuple<Location> calleeLocTupleKey = (NTuple<Location>) iterator.next();
+ Set<NTuple<Descriptor>> heapPathSet = calleeParamSharedSet.get(calleeLocTupleKey);
+ Set<NTuple<Descriptor>> boundHeapPathSet = new HashSet<NTuple<Descriptor>>();
+ for (Iterator iterator2 = heapPathSet.iterator(); iterator2.hasNext();) {
+ NTuple<Descriptor> calleeHeapPath = (NTuple<Descriptor>) iterator2.next();
+ boundHeapPathSet.add(bindHeapPath(callerArgHeapPath, calleeHeapPath));
}
+ calleeIntersectBoundSharedSet.intersect(
+ bindLocationPath(callerArgLocationPath, calleeLocTupleKey), boundHeapPathSet);
}
+
+ }
+
+ private NTuple<Location> bindLocationPath(NTuple<Location> start, NTuple<Location> end) {
+ NTuple<Location> locPath = new NTuple<Location>();
+ locPath.addAll(start);
+ for (int i = 1; i < end.size(); i++) {
+ locPath.add(end.get(i));
+ }
+ return locPath;
}
- private void identifyMainEventLoop() {
+ private NTuple<Descriptor> bindHeapPath(NTuple<Descriptor> start, NTuple<Descriptor> end) {
+ NTuple<Descriptor> heapPath = new NTuple<Descriptor>();
+ heapPath.addAll(start);
+ for (int i = 1; i < end.size(); i++) {
+ heapPath.add(end.get(i));
+ }
+ return heapPath;
+ }
+
+ private void initialize() {
// First, identify ssjava loop entrace
// no need to analyze method having ssjava loop
if (label != null) {
if (label.equals(ssjava.SSJAVA)) {
- ssjavaLoopEntrance = fn;
+ ssjava.setSSJavaLoopEntrance(fn);
break;
}
}
}
}
- assert ssjavaLoopEntrance != null;
+ assert ssjava.getSSJavaLoopEntrance() != null;
// assume that ssjava loop is top-level loop in method, not nested loop
Set nestedLoop = loopFinder.nestedLoops();
for (Iterator loopIter = nestedLoop.iterator(); loopIter.hasNext();) {
LoopFinder lf = (LoopFinder) loopIter.next();
- if (lf.loopEntrances().iterator().next().equals(ssjavaLoopEntrance)) {
+ if (lf.loopEntrances().iterator().next().equals(ssjava.getSSJavaLoopEntrance())) {
ssjavaLoop = lf;
}
}
loopIncElements = (Set<FlatNode>) ssjavaLoop.loopIncElements();
+ // perform topological sort over the set of methods accessed by the main
+ // event loop
+ // Set<MethodDescriptor> methodDescriptorsToAnalyze = new
+ // HashSet<MethodDescriptor>();
+ // methodDescriptorsToAnalyze.addAll(ssjava.getAnnotationRequireSet());
+ // sortedDescriptors = topologicalSort(methodDescriptorsToAnalyze);
+
+ liveInTempSetToEventLoop =
+ liveness.getLiveInTemps(state.getMethodFlat(methodContainingSSJavaLoop),
+ ssjava.getSSJavaLoopEntrance());
}
private void methodReadWriteSetAnalysis() {
// perform method READ/OVERWRITE analysis
- Set<MethodDescriptor> methodDescriptorsToAnalyze = new HashSet<MethodDescriptor>();
- methodDescriptorsToAnalyze.addAll(ssjava.getAnnotationRequireSet());
-
- sortedDescriptors = topologicalSort(methodDescriptorsToAnalyze);
-
- LinkedList<MethodDescriptor> descriptorListToAnalyze =
- (LinkedList<MethodDescriptor>) sortedDescriptors.clone();
+ LinkedList<MethodDescriptor> descriptorListToAnalyze = ssjava.getSortedDescriptors();
// current descriptors to visit in fixed-point interprocedural analysis,
// prioritized by
// results for callee changed, so enqueue dependents caller for
// further
// analysis
- Iterator<MethodDescriptor> depsItr = getDependents(md).iterator();
+ Iterator<MethodDescriptor> depsItr = ssjava.getDependents(md).iterator();
while (depsItr.hasNext()) {
MethodDescriptor methodNext = depsItr.next();
if (!methodDescriptorsToVisitStack.contains(methodNext)
}
+ methodReadWriteSetAnalysisToEventLoopBody();
+
}
private void methodReadWriteSet_analyzeMethod(FlatMethod fm, Set<NTuple<Descriptor>> readSet,
System.out.println("SSJAVA: Definitely written Analyzing: " + fm);
}
- methodReadWriteSet_analyzeBody(fm, readSet, mustWriteSet, mayWriteSet, null);
+ methodReadWriteSet_analyzeBody(fm, readSet, mustWriteSet, mayWriteSet, false);
}
mapFlatMethodToMustWriteSet.put(flatMethodContainingSSJavaLoop, mustWriteSet);
mapFlatMethodToMayWriteSet.put(flatMethodContainingSSJavaLoop, mayWriteSet);
- loopIncElements = (Set<FlatNode>) ssjavaLoop.loopIncElements();
+ for (Iterator iterator = liveInTempSetToEventLoop.iterator(); iterator.hasNext();) {
+ TempDescriptor liveIn = (TempDescriptor) iterator.next();
+ NTuple<Descriptor> heapPath = new NTuple<Descriptor>();
+ heapPath.add(liveIn);
+ mapHeapPath.put(liveIn, heapPath);
+ }
- methodReadWriteSet_analyzeBody(ssjavaLoopEntrance, readSet, mustWriteSet, mayWriteSet,
- loopIncElements);
+ methodReadWriteSet_analyzeBody(ssjava.getSSJavaLoopEntrance(), readSet, mustWriteSet,
+ mayWriteSet, true);
}
private void methodReadWriteSet_analyzeBody(FlatNode startNode, Set<NTuple<Descriptor>> readSet,
Set<NTuple<Descriptor>> mustWriteSet, Set<NTuple<Descriptor>> mayWriteSet,
- Set<FlatNode> bodyNodeSet) {
+ boolean isEventLoopBody) {
// intraprocedural analysis
Set<FlatNode> flatNodesToVisit = new HashSet<FlatNode>();
}
}
- methodReadWriteSet_nodeActions(fn, currMustWriteSet, readSet, mustWriteSet, mayWriteSet);
+ methodReadWriteSet_nodeActions(fn, currMustWriteSet, readSet, mustWriteSet, mayWriteSet,
+ isEventLoopBody);
Set<NTuple<Descriptor>> mustSetPrev = mapFlatNodeToMustWriteSet.get(fn);
+
if (!currMustWriteSet.equals(mustSetPrev)) {
mapFlatNodeToMustWriteSet.put(fn, currMustWriteSet);
for (int i = 0; i < fn.numNext(); i++) {
FlatNode nn = fn.getNext(i);
- if (bodyNodeSet == null || bodyNodeSet.contains(nn)) {
+ if ((!isEventLoopBody) || loopIncElements.contains(nn)) {
flatNodesToVisit.add(nn);
}
private void methodReadWriteSet_nodeActions(FlatNode fn,
Set<NTuple<Descriptor>> currMustWriteSet, Set<NTuple<Descriptor>> readSet,
- Set<NTuple<Descriptor>> mustWriteSet, Set<NTuple<Descriptor>> mayWriteSet) {
+ Set<NTuple<Descriptor>> mustWriteSet, Set<NTuple<Descriptor>> mayWriteSet,
+ boolean isEventLoopBody) {
+
TempDescriptor lhs;
TempDescriptor rhs;
FieldDescriptor fld;
FlatOpNode fon = (FlatOpNode) fn;
// for a normal assign node, need to propagate lhs's heap path to
// rhs
+
if (fon.getOp().getOp() == Operation.ASSIGN) {
rhs = fon.getLeft();
lhs = fon.getDest();
NTuple<Descriptor> rhsHeapPath = mapHeapPath.get(rhs);
- if (rhsHeapPath != null) {
+
+ // if (lhs.getType().isPrimitive()) {
+ // NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
+ // lhsHeapPath.add(lhs);
+ // mapHeapPath.put(lhs, lhsHeapPath);
+ // } else
+
+ if (rhsHeapPath != null && (!lhs.getType().isPrimitive())) {
mapHeapPath.put(lhs, mapHeapPath.get(rhs));
} else {
- NTuple<Descriptor> heapPath = new NTuple<Descriptor>();
- heapPath.add(rhs);
- mapHeapPath.put(lhs, heapPath);
+ break;
+ // if (isEventLoopBody) {
+ // NTuple<Descriptor> lhsHeapPath = new NTuple<Descriptor>();
+ // lhsHeapPath.add(rhs);
+ // mapHeapPath.put(lhs, lhsHeapPath);
+ // } else {
+ // break;
+ // }
+ }
+
+ // shared loc extension
+ if (isEventLoopBody) {
+ if (!lhs.getSymbol().startsWith("neverused") && rhs.getType().isImmutable()) {
+
+ if (rhs.getType().getExtension() instanceof Location
+ && lhs.getType().getExtension() instanceof CompositeLocation) {
+ // rhs is field!
+ Location rhsLoc = (Location) rhs.getType().getExtension();
+
+ CompositeLocation lhsCompLoc = (CompositeLocation) lhs.getType().getExtension();
+ Location dstLoc = lhsCompLoc.get(lhsCompLoc.getSize() - 1);
+
+ NTuple<Descriptor> heapPath = new NTuple<Descriptor>();
+ for (int i = 0; i < rhsHeapPath.size() - 1; i++) {
+ heapPath.add(rhsHeapPath.get(i));
+ }
+
+ NTuple<Descriptor> writeHeapPath = new NTuple<Descriptor>();
+ writeHeapPath.addAll(heapPath);
+ writeHeapPath.add(lhs);
+
+ }
+ }
}
}
// callee's parameters. so just ignore it
NTuple<Descriptor> readingHeapPath = new NTuple<Descriptor>(srcHeapPath.getList());
- readingHeapPath.add(fld);
+ if (fn.kind() == FKind.FlatFieldNode) {
+ readingHeapPath.add(fld);
+ }
+
mapHeapPath.put(lhs, readingHeapPath);
// read (x.f)
if (lhsHeapPath != null) {
// if lhs heap path is null, it means that it is not reachable from
// callee's parameters. so just ignore it
- NTuple<Descriptor> newHeapPath = new NTuple<Descriptor>(lhsHeapPath.getList());
- newHeapPath.add(fld);
- mapHeapPath.put(fld, newHeapPath);
+ NTuple<Descriptor> fldHeapPath = new NTuple<Descriptor>(lhsHeapPath.getList());
+ if (fn.kind() != FKind.FlatSetElementNode) {
+ fldHeapPath.add(fld);
+ }
+ // mapHeapPath.put(fld, fldHeapPath);
// write(x.f)
// need to add hp(y) to WT
- currMustWriteSet.add(newHeapPath);
- mayWriteSet.add(newHeapPath);
+ if (fn.kind() != FKind.FlatSetElementNode) {
+ currMustWriteSet.add(fldHeapPath);
+ }
+ mayWriteSet.add(fldHeapPath);
}
FlatCall fc = (FlatCall) fn;
- bindHeapPathCallerArgWithCaleeParam(fc);
+ bindHeapPathCallerArgWithCalleeParam(fc);
+
+ Set<NTuple<Descriptor>> boundReadSet = new HashSet<NTuple<Descriptor>>();
+ boundReadSet.addAll(calleeUnionBoundReadSet);
+
+ Set<NTuple<Descriptor>> boundMustWriteSet = new HashSet<NTuple<Descriptor>>();
+ boundMustWriteSet.addAll(calleeIntersectBoundMustWriteSet);
+
+ Set<NTuple<Descriptor>> boundMayWriteSet = new HashSet<NTuple<Descriptor>>();
+ boundMayWriteSet.addAll(calleeUnionBoundMayWriteSet);
- mapFlatNodeToBoundReadSet.put(fn, calleeUnionBoundReadSet);
- mapFlatNodeToBoundMustWriteSet.put(fn, calleeIntersectBoundMustWriteSet);
- mapFlatNodeToBoundMayWriteSet.put(fn, calleeUnionBoundMayWriteSet);
+ mapFlatNodeToBoundReadSet.put(fn, boundReadSet);
+ mapFlatNodeToBoundMustWriteSet.put(fn, boundMustWriteSet);
+ mapFlatNodeToBoundMayWriteSet.put(fn, boundMayWriteSet);
// add heap path, which is an element of READ_bound set and is not
// an
return fd;
}
- private void mergeSharedLocationAnaylsis(ClearingSummary curr, Set<ClearingSummary> inSet) {
- if (inSet.size() == 0) {
- return;
- }
- Hashtable<Pair<NTuple<Descriptor>, Location>, Boolean> mapHeapPathLoc2Flag =
- new Hashtable<Pair<NTuple<Descriptor>, Location>, Boolean>();
-
- for (Iterator inIterator = inSet.iterator(); inIterator.hasNext();) {
-
- ClearingSummary inTable = (ClearingSummary) inIterator.next();
-
- Set<NTuple<Descriptor>> keySet = inTable.keySet();
-
- for (Iterator iterator = keySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- SharedStatus inState = inTable.get(hpKey);
- SharedStatus currState = curr.get(hpKey);
- if (currState == null) {
- currState = new SharedStatus();
- curr.put(hpKey, currState);
- }
-
- currState.merge(inState);
-
- Set<Location> locSet = inState.getMap().keySet();
- for (Iterator iterator2 = locSet.iterator(); iterator2.hasNext();) {
- Location loc = (Location) iterator2.next();
- Pair<Set<Descriptor>, Boolean> pair = inState.getMap().get(loc);
- boolean inFlag = pair.getSecond().booleanValue();
-
- Pair<NTuple<Descriptor>, Location> flagKey =
- new Pair<NTuple<Descriptor>, Location>(hpKey, loc);
- Boolean current = mapHeapPathLoc2Flag.get(flagKey);
- if (current == null) {
- current = new Boolean(true);
- }
- boolean newInFlag = current.booleanValue() & inFlag;
- mapHeapPathLoc2Flag.put(flagKey, Boolean.valueOf(newInFlag));
- }
-
- }
-
- }
-
- // merge flag status
- Set<NTuple<Descriptor>> hpKeySet = curr.keySet();
- for (Iterator iterator = hpKeySet.iterator(); iterator.hasNext();) {
- NTuple<Descriptor> hpKey = (NTuple<Descriptor>) iterator.next();
- SharedStatus currState = curr.get(hpKey);
- Set<Location> locKeySet = currState.getMap().keySet();
- for (Iterator iterator2 = locKeySet.iterator(); iterator2.hasNext();) {
- Location locKey = (Location) iterator2.next();
- Pair<Set<Descriptor>, Boolean> pair = currState.getMap().get(locKey);
- boolean currentFlag = pair.getSecond().booleanValue();
- Boolean inFlag = mapHeapPathLoc2Flag.get(new Pair(hpKey, locKey));
- if (inFlag != null) {
- boolean newFlag = currentFlag | inFlag.booleanValue();
- if (currentFlag != newFlag) {
- currState.getMap().put(locKey, new Pair(pair.getFirst(), new Boolean(newFlag)));
- }
- }
- }
- }
-
- }
-
private void merge(Set<NTuple<Descriptor>> curr, Set<NTuple<Descriptor>> in) {
if (curr.isEmpty()) {
// set has a special initial value which covers all possible
}
- // Borrowed it from disjoint analysis
- private LinkedList<MethodDescriptor> topologicalSort(Set<MethodDescriptor> toSort) {
-
- Set<MethodDescriptor> discovered = new HashSet<MethodDescriptor>();
-
- LinkedList<MethodDescriptor> sorted = new LinkedList<MethodDescriptor>();
-
- Iterator<MethodDescriptor> itr = toSort.iterator();
- while (itr.hasNext()) {
- MethodDescriptor d = itr.next();
-
- if (!discovered.contains(d)) {
- dfsVisit(d, toSort, sorted, discovered);
- }
+ private NTuple<Descriptor> computePath(Descriptor td) {
+ // generate proper path fot input td
+ // if td is local variable, it just generate one element tuple path
+ if (mapHeapPath.containsKey(td)) {
+ NTuple<Descriptor> rtrHeapPath = new NTuple<Descriptor>();
+ rtrHeapPath.addAll(mapHeapPath.get(td));
+ return rtrHeapPath;
+ } else {
+ NTuple<Descriptor> rtrHeapPath = new NTuple<Descriptor>();
+ rtrHeapPath.add(td);
+ return rtrHeapPath;
}
-
- return sorted;
}
- // While we're doing DFS on call graph, remember
- // dependencies for efficient queuing of methods
- // during interprocedural analysis:
- //
- // a dependent of a method decriptor d for this analysis is:
- // 1) a method or task that invokes d
- // 2) in the descriptorsToAnalyze set
- private void dfsVisit(MethodDescriptor md, Set<MethodDescriptor> toSort,
- LinkedList<MethodDescriptor> sorted, Set<MethodDescriptor> discovered) {
-
- discovered.add(md);
-
- Iterator itr = callGraph.getCallerSet(md).iterator();
- while (itr.hasNext()) {
- MethodDescriptor dCaller = (MethodDescriptor) itr.next();
- // only consider callers in the original set to analyze
- if (!toSort.contains(dCaller)) {
- continue;
- }
- if (!discovered.contains(dCaller)) {
- addDependent(md, // callee
- dCaller // caller
- );
-
- dfsVisit(dCaller, toSort, sorted, discovered);
- }
- }
-
- // for leaf-nodes last now!
- sorted.addLast(md);
+ private NTuple<Location> deriveThisLocationTuple(MethodDescriptor md) {
+ String thisLocIdentifier = ssjava.getMethodLattice(md).getThisLoc();
+ Location thisLoc = new Location(md, thisLocIdentifier);
+ NTuple<Location> locTuple = new NTuple<Location>();
+ locTuple.add(thisLoc);
+ return locTuple;
}
- // a dependent of a method decriptor d for this analysis is:
- // 1) a method or task that invokes d
- // 2) in the descriptorsToAnalyze set
- private void addDependent(MethodDescriptor callee, MethodDescriptor caller) {
- Set<MethodDescriptor> deps = mapDescriptorToSetDependents.get(callee);
- if (deps == null) {
- deps = new HashSet<MethodDescriptor>();
- }
- deps.add(caller);
- mapDescriptorToSetDependents.put(callee, deps);
+ private NTuple<Location> deriveGlobalLocationTuple(MethodDescriptor md) {
+ String globalLocIdentifier = ssjava.getMethodLattice(md).getGlobalLoc();
+ Location globalLoc = new Location(md, globalLocIdentifier);
+ NTuple<Location> locTuple = new NTuple<Location>();
+ locTuple.add(globalLoc);
+ return locTuple;
}
- private Set<MethodDescriptor> getDependents(MethodDescriptor callee) {
- Set<MethodDescriptor> deps = mapDescriptorToSetDependents.get(callee);
- if (deps == null) {
- deps = new HashSet<MethodDescriptor>();
- mapDescriptorToSetDependents.put(callee, deps);
- }
- return deps;
- }
+ private NTuple<Location> deriveLocationTuple(MethodDescriptor md, TempDescriptor td) {
+ assert td.getType() != null;
- private NTuple<Descriptor> computePath(TempDescriptor td) {
- // generate proper path fot input td
- // if td is local variable, it just generate one element tuple path
- if (mapHeapPath.containsKey(td)) {
- return mapHeapPath.get(td);
+ if (mapDescriptorToLocationPath.containsKey(td)) {
+ NTuple<Location> locPath = mapDescriptorToLocationPath.get(td);
+ NTuple<Location> rtrPath = new NTuple<Location>();
+ rtrPath.addAll(locPath);
+ return rtrPath;
} else {
- NTuple<Descriptor> path = new NTuple<Descriptor>();
- path.add(td);
- return path;
+ if (td.getSymbol().startsWith("this")) {
+ NTuple<Location> thisPath = deriveThisLocationTuple(md);
+ NTuple<Location> rtrPath = new NTuple<Location>();
+ rtrPath.addAll(thisPath);
+ return rtrPath;
+ } else {
+
+ if (td.getType().getExtension() != null) {
+ SSJavaType ssJavaType = (SSJavaType) td.getType().getExtension();
+ if (ssJavaType.getCompLoc() != null) {
+ NTuple<Location> rtrPath = new NTuple<Location>();
+ rtrPath.addAll(ssJavaType.getCompLoc().getTuple());
+ return rtrPath;
+ }
+ }
+
+ return null;
+
+ }
}
}
-
}
\ No newline at end of file