package Analysis.SSJava;
import java.util.ArrayList;
+import java.util.Collections;
+import java.util.Comparator;
import java.util.HashSet;
import java.util.Hashtable;
import java.util.Iterator;
import IR.Tree.OpNode;
import IR.Tree.ReturnNode;
import IR.Tree.SubBlockNode;
+import IR.Tree.SwitchBlockNode;
+import IR.Tree.SwitchStatementNode;
+import IR.Tree.SynchronizedNode;
import IR.Tree.TertiaryNode;
import IR.Tree.TreeNode;
import Util.Pair;
State state;
static SSJavaAnalysis ssjava;
- HashSet toanalyze;
+ Set<ClassDescriptor> toanalyze;
+ List<ClassDescriptor> toanalyzeList;
+
+ Set<MethodDescriptor> toanalyzeMethod;
+ List<MethodDescriptor> toanalyzeMethodList;
// mapping from 'descriptor' to 'composite location'
Hashtable<Descriptor, CompositeLocation> d2loc;
// mapping from 'locID' to 'class descriptor'
Hashtable<String, ClassDescriptor> fieldLocName2cd;
+ boolean deterministic = true;
+
public FlowDownCheck(SSJavaAnalysis ssjava, State state) {
this.ssjava = ssjava;
this.state = state;
- this.toanalyze = new HashSet();
+ if (deterministic) {
+ this.toanalyzeList = new ArrayList<ClassDescriptor>();
+ } else {
+ this.toanalyze = new HashSet<ClassDescriptor>();
+ }
+ if (deterministic) {
+ this.toanalyzeMethodList = new ArrayList<MethodDescriptor>();
+ } else {
+ this.toanalyzeMethod = new HashSet<MethodDescriptor>();
+ }
this.d2loc = new Hashtable<Descriptor, CompositeLocation>();
this.fieldLocName2cd = new Hashtable<String, ClassDescriptor>();
this.md2ReturnLoc = new Hashtable<MethodDescriptor, CompositeLocation>();
}
- public void flowDownCheck() {
+ public boolean toAnalyzeIsEmpty() {
+ if (deterministic) {
+ return toanalyzeList.isEmpty();
+ } else {
+ return toanalyze.isEmpty();
+ }
+ }
+
+ public ClassDescriptor toAnalyzeNext() {
+ if (deterministic) {
+ return toanalyzeList.remove(0);
+ } else {
+ ClassDescriptor cd = toanalyze.iterator().next();
+ toanalyze.remove(cd);
+ return cd;
+ }
+ }
+
+ public void setupToAnalyze() {
SymbolTable classtable = state.getClassSymbolTable();
+ if (deterministic) {
+ toanalyzeList.clear();
+ toanalyzeList.addAll(classtable.getValueSet());
+ Collections.sort(toanalyzeList, new Comparator<ClassDescriptor>() {
+ public int compare(ClassDescriptor o1, ClassDescriptor o2) {
+ return o1.getClassName().compareTo(o2.getClassName());
+ }
+ });
+ } else {
+ toanalyze.clear();
+ toanalyze.addAll(classtable.getValueSet());
+ }
+ }
+
+ public void setupToAnalazeMethod(ClassDescriptor cd) {
+
+ SymbolTable methodtable = cd.getMethodTable();
+ if (deterministic) {
+ toanalyzeMethodList.clear();
+ toanalyzeMethodList.addAll(methodtable.getValueSet());
+ Collections.sort(toanalyzeMethodList, new Comparator<MethodDescriptor>() {
+ public int compare(MethodDescriptor o1, MethodDescriptor o2) {
+ return o1.getSymbol().compareTo(o2.getSymbol());
+ }
+ });
+ } else {
+ toanalyzeMethod.clear();
+ toanalyzeMethod.addAll(methodtable.getValueSet());
+ }
+ }
+
+ public boolean toAnalyzeMethodIsEmpty() {
+ if (deterministic) {
+ return toanalyzeMethodList.isEmpty();
+ } else {
+ return toanalyzeMethod.isEmpty();
+ }
+ }
+
+ public MethodDescriptor toAnalyzeMethodNext() {
+ if (deterministic) {
+ return toanalyzeMethodList.remove(0);
+ } else {
+ MethodDescriptor md = toanalyzeMethod.iterator().next();
+ toanalyzeMethod.remove(md);
+ return md;
+ }
+ }
+
+ public void flowDownCheck() {
// phase 1 : checking declaration node and creating mapping of 'type
// desciptor' & 'location'
- toanalyze.addAll(classtable.getValueSet());
- toanalyze.addAll(state.getTaskSymbolTable().getValueSet());
- while (!toanalyze.isEmpty()) {
- Object obj = toanalyze.iterator().next();
- ClassDescriptor cd = (ClassDescriptor) obj;
- toanalyze.remove(cd);
+ setupToAnalyze();
- if (!cd.isInterface()) {
+ while (!toAnalyzeIsEmpty()) {
+ ClassDescriptor cd = toAnalyzeNext();
+
+ if (ssjava.needToBeAnnoated(cd)) {
ClassDescriptor superDesc = cd.getSuperDesc();
- if (superDesc != null && (!superDesc.isInterface())
- && (!superDesc.getSymbol().equals("Object"))) {
+
+ if (superDesc != null && (!superDesc.getSymbol().equals("Object"))) {
checkOrderingInheritance(superDesc, cd);
}
checkDeclarationInClass(cd);
- for (Iterator method_it = cd.getMethods(); method_it.hasNext();) {
- MethodDescriptor md = (MethodDescriptor) method_it.next();
- if (ssjava.needAnnotation(md)) {
+
+ setupToAnalazeMethod(cd);
+ while (!toAnalyzeMethodIsEmpty()) {
+ MethodDescriptor md = toAnalyzeMethodNext();
+ if (ssjava.needTobeAnnotated(md)) {
checkDeclarationInMethodBody(cd, md);
}
}
+
}
}
// phase2 : checking assignments
- toanalyze.addAll(classtable.getValueSet());
- toanalyze.addAll(state.getTaskSymbolTable().getValueSet());
- while (!toanalyze.isEmpty()) {
- Object obj = toanalyze.iterator().next();
- ClassDescriptor cd = (ClassDescriptor) obj;
- toanalyze.remove(cd);
+ setupToAnalyze();
- checkClass(cd);
- for (Iterator method_it = cd.getMethods(); method_it.hasNext();) {
- MethodDescriptor md = (MethodDescriptor) method_it.next();
- if (ssjava.needAnnotation(md)) {
+ while (!toAnalyzeIsEmpty()) {
+ ClassDescriptor cd = toAnalyzeNext();
+
+ setupToAnalazeMethod(cd);
+ while (!toAnalyzeMethodIsEmpty()) {
+ MethodDescriptor md = toAnalyzeMethodNext();
+ if (ssjava.needTobeAnnotated(md)) {
+ System.out.println("SSJAVA: Checking assignments: " + md);
checkMethodBody(cd, md);
}
}
SSJavaLattice<String> superLattice = ssjava.getClassLattice(superCd);
SSJavaLattice<String> subLattice = ssjava.getClassLattice(cd);
- if (superLattice != null && subLattice == null) {
- throw new Error("If a parent class '" + superCd + "' has a ordering lattice, its subclass '"
- + cd + "' should have one.");
+ if (superLattice != null) {
+ // if super class doesn't define lattice, then we don't need to check its
+ // subclass
+ if (subLattice == null) {
+ throw new Error("If a parent class '" + superCd
+ + "' has a ordering lattice, its subclass '" + cd + "' should have one.");
+ }
+
+ Set<Pair<String, String>> superPairSet = superLattice.getOrderingPairSet();
+ Set<Pair<String, String>> subPairSet = subLattice.getOrderingPairSet();
+
+ for (Iterator iterator = superPairSet.iterator(); iterator.hasNext();) {
+ Pair<String, String> pair = (Pair<String, String>) iterator.next();
+
+ if (!subPairSet.contains(pair)) {
+ throw new Error("Subclass '" + cd + "' does not have the relative ordering '"
+ + pair.getSecond() + " < " + pair.getFirst()
+ + "' that is defined by its superclass '" + superCd + "'.");
+ }
+ }
}
- Set<Pair<String, String>> superPairSet = superLattice.getOrderingPairSet();
- Set<Pair<String, String>> subPairSet = subLattice.getOrderingPairSet();
+ MethodLattice<String> superMethodDefaultLattice = ssjava.getMethodDefaultLattice(superCd);
+ MethodLattice<String> subMethodDefaultLattice = ssjava.getMethodDefaultLattice(cd);
- for (Iterator iterator = superPairSet.iterator(); iterator.hasNext();) {
- Pair<String, String> pair = (Pair<String, String>) iterator.next();
+ if (superMethodDefaultLattice != null) {
+ if (subMethodDefaultLattice == null) {
+ throw new Error("When a parent class '" + superCd
+ + "' defines a default method lattice, its subclass '" + cd + "' should define one.");
+ }
+
+ Set<Pair<String, String>> superPairSet = superMethodDefaultLattice.getOrderingPairSet();
+ Set<Pair<String, String>> subPairSet = subMethodDefaultLattice.getOrderingPairSet();
+
+ for (Iterator iterator = superPairSet.iterator(); iterator.hasNext();) {
+ Pair<String, String> pair = (Pair<String, String>) iterator.next();
- if (!subPairSet.contains(pair)) {
- throw new Error("Subclass '" + cd + "' does not have the relative ordering '"
- + pair.getSecond() + " < " + pair.getFirst() + "' that is defined by its superclass '"
- + superCd + "'.");
+ if (!subPairSet.contains(pair)) {
+ throw new Error("Subclass '" + cd + "' does not have the relative ordering '"
+ + pair.getSecond() + " < " + pair.getFirst()
+ + "' that is defined by its superclass '" + superCd
+ + "' in the method default lattice.");
+ }
}
+
}
}
private void checkDeclarationInMethodBody(ClassDescriptor cd, MethodDescriptor md) {
BlockNode bn = state.getMethodBody(md);
- // parsing returnloc annotation
- if (ssjava.needAnnotation(md)) {
-
- Vector<AnnotationDescriptor> methodAnnotations = md.getModifiers().getAnnotations();
- if (methodAnnotations != null) {
- for (int i = 0; i < methodAnnotations.size(); i++) {
- AnnotationDescriptor an = methodAnnotations.elementAt(i);
- if (an.getMarker().equals(ssjava.RETURNLOC)) {
- // developer explicitly defines method lattice
- String returnLocDeclaration = an.getValue();
- CompositeLocation returnLocComp =
- parseLocationDeclaration(md, null, returnLocDeclaration);
- md2ReturnLoc.put(md, returnLocComp);
- }
- }
+ // first, check annotations on method parameters
+ List<CompositeLocation> paramList = new ArrayList<CompositeLocation>();
+ for (int i = 0; i < md.numParameters(); i++) {
+ // process annotations on method parameters
+ VarDescriptor vd = (VarDescriptor) md.getParameter(i);
+ assignLocationOfVarDescriptor(vd, md, md.getParameterTable(), bn);
+ paramList.add(d2loc.get(vd));
+ }
+ Vector<AnnotationDescriptor> methodAnnotations = md.getModifiers().getAnnotations();
+
+ // second, check return location annotation
+ if (!md.getReturnType().isVoid()) {
+ CompositeLocation returnLocComp = null;
- if (!md.getReturnType().isVoid() && !md2ReturnLoc.containsKey(md)) {
- throw new Error("Return location is not specified for the method " + md + " at "
- + cd.getSourceFileName());
+ String rtrStr = ssjava.getMethodLattice(md).getReturnLoc();
+ if (rtrStr != null) {
+ returnLocComp = new CompositeLocation(new Location(md, rtrStr));
+ } else {
+ if (methodAnnotations != null) {
+ for (int i = 0; i < methodAnnotations.size(); i++) {
+ AnnotationDescriptor an = methodAnnotations.elementAt(i);
+ if (an.getMarker().equals(ssjava.RETURNLOC)) {
+ // this case, developer explicitly defines method lattice
+ String returnLocDeclaration = an.getValue();
+ returnLocComp = parseLocationDeclaration(md, null, returnLocDeclaration);
+ }
+ }
+ } else {
+ // if developer does not define method lattice
+ // search return location in the method default lattice
+ if (returnLocComp == null) {
+ MethodLattice<String> methodDefaultLattice = ssjava.getMethodDefaultLattice(cd);
+ if (methodDefaultLattice.getReturnLoc() != null) {
+ returnLocComp =
+ parseLocationDeclaration(md, null, methodDefaultLattice.getReturnLoc());
+ }
+ }
}
+ }
+ if (returnLocComp == null) {
+ throw new Error("Return location is not specified for the method " + md + " at "
+ + cd.getSourceFileName());
}
- }
- List<CompositeLocation> paramList = new ArrayList<CompositeLocation>();
+ md2ReturnLoc.put(md, returnLocComp);
- boolean hasReturnValue = (!md.getReturnType().isVoid());
- if (hasReturnValue) {
+ // check this location
MethodLattice<String> methodLattice = ssjava.getMethodLattice(md);
String thisLocId = methodLattice.getThisLoc();
+ if (thisLocId == null) {
+ throw new Error("Method '" + md + "' does not have the definition of 'this' location at "
+ + md.getClassDesc().getSourceFileName());
+ }
CompositeLocation thisLoc = new CompositeLocation(new Location(md, thisLocId));
- paramList.add(thisLoc);
- }
+ paramList.add(0, thisLoc);
- for (int i = 0; i < md.numParameters(); i++) {
- // process annotations on method parameters
- VarDescriptor vd = (VarDescriptor) md.getParameter(i);
- assignLocationOfVarDescriptor(vd, md, md.getParameterTable(), bn);
- if (hasReturnValue) {
- paramList.add(d2loc.get(vd));
- }
+ System.out.println("### ReturnLocGenerator=" + md);
+ System.out.println("### md2ReturnLoc.get(md)=" + md2ReturnLoc.get(md));
+ md2ReturnLocGen.put(md, new ReturnLocGenerator(md2ReturnLoc.get(md), paramList, md + " of "
+ + cd.getSourceFileName()));
}
- if (hasReturnValue) {
- md2ReturnLocGen.put(md, new ReturnLocGenerator(md2ReturnLoc.get(md), paramList));
- }
+ // fourth, check declarations inside of method
checkDeclarationInBlockNode(md, md.getParameterTable(), bn);
+
}
private void checkDeclarationInBlockNode(MethodDescriptor md, SymbolTable nametable, BlockNode bn) {
case Kind.LoopNode:
checkDeclarationInLoopNode(md, nametable, (LoopNode) bsn);
break;
+
+ case Kind.IfStatementNode:
+ checkDeclarationInIfStatementNode(md, nametable, (IfStatementNode) bsn);
+ return;
+
+ case Kind.SwitchStatementNode:
+ checkDeclarationInSwitchStatementNode(md, nametable, (SwitchStatementNode) bsn);
+ return;
+
+ case Kind.SynchronizedNode:
+ checkDeclarationInSynchronizedNode(md, nametable, (SynchronizedNode) bsn);
+ return;
+
}
}
+ private void checkDeclarationInSynchronizedNode(MethodDescriptor md, SymbolTable nametable,
+ SynchronizedNode sbn) {
+ checkDeclarationInBlockNode(md, nametable, sbn.getBlockNode());
+ }
+
+ private void checkDeclarationInSwitchStatementNode(MethodDescriptor md, SymbolTable nametable,
+ SwitchStatementNode ssn) {
+ BlockNode sbn = ssn.getSwitchBody();
+ for (int i = 0; i < sbn.size(); i++) {
+ SwitchBlockNode node = (SwitchBlockNode) sbn.get(i);
+ checkDeclarationInBlockNode(md, nametable, node.getSwitchBlockStatement());
+ }
+ }
+
+ private void checkDeclarationInIfStatementNode(MethodDescriptor md, SymbolTable nametable,
+ IfStatementNode isn) {
+ checkDeclarationInBlockNode(md, nametable, isn.getTrueBlock());
+ if (isn.getFalseBlock() != null)
+ checkDeclarationInBlockNode(md, nametable, isn.getFalseBlock());
+ }
+
private void checkDeclarationInLoopNode(MethodDescriptor md, SymbolTable nametable, LoopNode ln) {
if (ln.getType() == LoopNode.FORLOOP) {
private void checkMethodBody(ClassDescriptor cd, MethodDescriptor md) {
BlockNode bn = state.getMethodBody(md);
- checkLocationFromBlockNode(md, md.getParameterTable(), bn);
+ checkLocationFromBlockNode(md, md.getParameterTable(), bn, null);
+ }
+
+ private String generateErrorMessage(ClassDescriptor cd, TreeNode tn) {
+ if (tn != null) {
+ return cd.getSourceFileName() + "::" + tn.getNumLine();
+ } else {
+ return cd.getSourceFileName();
+ }
+
}
private CompositeLocation checkLocationFromBlockNode(MethodDescriptor md, SymbolTable nametable,
- BlockNode bn) {
+ BlockNode bn, CompositeLocation constraint) {
bn.getVarTable().setParent(nametable);
- // it will return the lowest location in the block node
- CompositeLocation lowestLoc = null;
-
for (int i = 0; i < bn.size(); i++) {
BlockStatementNode bsn = bn.get(i);
- CompositeLocation bLoc = checkLocationFromBlockStatementNode(md, bn.getVarTable(), bsn);
- if (!bLoc.isEmpty()) {
- if (lowestLoc == null) {
- lowestLoc = bLoc;
- } else {
- if (CompositeLattice.isGreaterThan(lowestLoc, bLoc)) {
- lowestLoc = bLoc;
- }
- }
- }
-
+ checkLocationFromBlockStatementNode(md, bn.getVarTable(), bsn, constraint);
}
- return lowestLoc;
+ return new CompositeLocation();
+
}
private CompositeLocation checkLocationFromBlockStatementNode(MethodDescriptor md,
- SymbolTable nametable, BlockStatementNode bsn) {
+ SymbolTable nametable, BlockStatementNode bsn, CompositeLocation constraint) {
CompositeLocation compLoc = null;
switch (bsn.kind()) {
case Kind.BlockExpressionNode:
- compLoc = checkLocationFromBlockExpressionNode(md, nametable, (BlockExpressionNode) bsn);
+ compLoc =
+ checkLocationFromBlockExpressionNode(md, nametable, (BlockExpressionNode) bsn, constraint);
break;
case Kind.DeclarationNode:
- compLoc = checkLocationFromDeclarationNode(md, nametable, (DeclarationNode) bsn);
+ compLoc = checkLocationFromDeclarationNode(md, nametable, (DeclarationNode) bsn, constraint);
break;
case Kind.IfStatementNode:
- compLoc = checkLocationFromIfStatementNode(md, nametable, (IfStatementNode) bsn);
+ compLoc = checkLocationFromIfStatementNode(md, nametable, (IfStatementNode) bsn, constraint);
break;
case Kind.LoopNode:
- compLoc = checkLocationFromLoopNode(md, nametable, (LoopNode) bsn);
+ compLoc = checkLocationFromLoopNode(md, nametable, (LoopNode) bsn, constraint);
break;
case Kind.ReturnNode:
- compLoc = checkLocationFromReturnNode(md, nametable, (ReturnNode) bsn);
+ compLoc = checkLocationFromReturnNode(md, nametable, (ReturnNode) bsn, constraint);
break;
case Kind.SubBlockNode:
- compLoc = checkLocationFromSubBlockNode(md, nametable, (SubBlockNode) bsn);
+ compLoc = checkLocationFromSubBlockNode(md, nametable, (SubBlockNode) bsn, constraint);
break;
- // case Kind.ContinueBreakNode:
- // checkLocationFromContinueBreakNode(md, nametable,(ContinueBreakNode)
- // bsn);
- // return null;
+ case Kind.ContinueBreakNode:
+ compLoc = new CompositeLocation();
+ break;
+
+ case Kind.SwitchStatementNode:
+ compLoc =
+ checkLocationFromSwitchStatementNode(md, nametable, (SwitchStatementNode) bsn, constraint);
+
}
return compLoc;
}
+ private CompositeLocation checkLocationFromSwitchStatementNode(MethodDescriptor md,
+ SymbolTable nametable, SwitchStatementNode ssn, CompositeLocation constraint) {
+
+ ClassDescriptor cd = md.getClassDesc();
+ CompositeLocation condLoc =
+ checkLocationFromExpressionNode(md, nametable, ssn.getCondition(), new CompositeLocation(),
+ constraint, false);
+ BlockNode sbn = ssn.getSwitchBody();
+
+ constraint = generateNewConstraint(constraint, condLoc);
+
+ for (int i = 0; i < sbn.size(); i++) {
+ checkLocationFromSwitchBlockNode(md, nametable, (SwitchBlockNode) sbn.get(i), constraint);
+ }
+ return new CompositeLocation();
+ }
+
+ private CompositeLocation checkLocationFromSwitchBlockNode(MethodDescriptor md,
+ SymbolTable nametable, SwitchBlockNode sbn, CompositeLocation constraint) {
+
+ CompositeLocation blockLoc =
+ checkLocationFromBlockNode(md, nametable, sbn.getSwitchBlockStatement(), constraint);
+
+ return blockLoc;
+
+ }
+
private CompositeLocation checkLocationFromReturnNode(MethodDescriptor md, SymbolTable nametable,
- ReturnNode rn) {
+ ReturnNode rn, CompositeLocation constraint) {
ExpressionNode returnExp = rn.getReturnExpression();
- CompositeLocation expLoc =
- checkLocationFromExpressionNode(md, nametable, returnExp, new CompositeLocation());
+ CompositeLocation returnValueLoc;
+ if (returnExp != null) {
+ returnValueLoc =
+ checkLocationFromExpressionNode(md, nametable, returnExp, new CompositeLocation(),
+ constraint, false);
+
+ // if this return statement is inside branch, return value has an implicit
+ // flow from conditional location
+ if (constraint != null) {
+ Set<CompositeLocation> inputGLB = new HashSet<CompositeLocation>();
+ inputGLB.add(returnValueLoc);
+ inputGLB.add(constraint);
+ returnValueLoc =
+ CompositeLattice.calculateGLB(inputGLB, generateErrorMessage(md.getClassDesc(), rn));
+ }
- // check if return value is equal or higher than RETRUNLOC of method
- // declaration annotation
- CompositeLocation returnLocAt = md2ReturnLoc.get(md);
+ // check if return value is equal or higher than RETRUNLOC of method
+ // declaration annotation
+ CompositeLocation declaredReturnLoc = md2ReturnLoc.get(md);
- if (CompositeLattice.isGreaterThan(returnLocAt, expLoc)) {
- throw new Error(
- "Return value location is not equal or higher than the declaraed return location at "
- + md.getClassDesc().getSourceFileName() + "::" + rn.getNumLine());
+ int compareResult =
+ CompositeLattice.compare(returnValueLoc, declaredReturnLoc, false,
+ generateErrorMessage(md.getClassDesc(), rn));
+
+ if (compareResult == ComparisonResult.LESS || compareResult == ComparisonResult.INCOMPARABLE) {
+ throw new Error(
+ "Return value location is not equal or higher than the declaraed return location at "
+ + md.getClassDesc().getSourceFileName() + "::" + rn.getNumLine());
+ }
}
return new CompositeLocation();
}
private CompositeLocation checkLocationFromLoopNode(MethodDescriptor md, SymbolTable nametable,
- LoopNode ln) {
+ LoopNode ln, CompositeLocation constraint) {
ClassDescriptor cd = md.getClassDesc();
if (ln.getType() == LoopNode.WHILELOOP || ln.getType() == LoopNode.DOWHILELOOP) {
CompositeLocation condLoc =
- checkLocationFromExpressionNode(md, nametable, ln.getCondition(), new CompositeLocation());
- addTypeLocation(ln.getCondition().getType(), (condLoc));
+ checkLocationFromExpressionNode(md, nametable, ln.getCondition(),
+ new CompositeLocation(), constraint, false);
+ addLocationType(ln.getCondition().getType(), (condLoc));
- CompositeLocation bodyLoc = checkLocationFromBlockNode(md, nametable, ln.getBody());
-
- if (!CompositeLattice.isGreaterThan(condLoc, bodyLoc)) {
- // loop condition should be higher than loop body
- throw new Error(
- "The location of the while-condition statement is lower than the loop body at "
- + cd.getSourceFileName() + ":" + ln.getCondition().getNumLine());
- }
+ constraint = generateNewConstraint(constraint, condLoc);
+ checkLocationFromBlockNode(md, nametable, ln.getBody(), constraint);
- return bodyLoc;
+ return new CompositeLocation();
} else {
- // check for loop case
+ // check 'for loop' case
BlockNode bn = ln.getInitializer();
bn.getVarTable().setParent(nametable);
// calculate glb location of condition and update statements
CompositeLocation condLoc =
checkLocationFromExpressionNode(md, bn.getVarTable(), ln.getCondition(),
- new CompositeLocation());
- addTypeLocation(ln.getCondition().getType(), condLoc);
-
- CompositeLocation updateLoc =
- checkLocationFromBlockNode(md, bn.getVarTable(), ln.getUpdate());
-
- Set<CompositeLocation> glbInputSet = new HashSet<CompositeLocation>();
- glbInputSet.add(condLoc);
- glbInputSet.add(updateLoc);
+ new CompositeLocation(), constraint, false);
+ addLocationType(ln.getCondition().getType(), condLoc);
- CompositeLocation glbLocOfForLoopCond = CompositeLattice.calculateGLB(glbInputSet);
+ constraint = generateNewConstraint(constraint, condLoc);
- // check location of 'forloop' body
- CompositeLocation blockLoc = checkLocationFromBlockNode(md, bn.getVarTable(), ln.getBody());
+ checkLocationFromBlockNode(md, bn.getVarTable(), ln.getUpdate(), constraint);
+ checkLocationFromBlockNode(md, bn.getVarTable(), ln.getBody(), constraint);
- if (blockLoc == null) {
- // when there is no statement in the loop body
- return glbLocOfForLoopCond;
- }
+ return new CompositeLocation();
- if (!CompositeLattice.isGreaterThan(glbLocOfForLoopCond, blockLoc)) {
- throw new Error(
- "The location of the for-condition statement is lower than the for-loop body at "
- + cd.getSourceFileName() + ":" + ln.getCondition().getNumLine());
- }
- return blockLoc;
}
}
private CompositeLocation checkLocationFromSubBlockNode(MethodDescriptor md,
- SymbolTable nametable, SubBlockNode sbn) {
- CompositeLocation compLoc = checkLocationFromBlockNode(md, nametable, sbn.getBlockNode());
+ SymbolTable nametable, SubBlockNode sbn, CompositeLocation constraint) {
+ CompositeLocation compLoc =
+ checkLocationFromBlockNode(md, nametable, sbn.getBlockNode(), constraint);
return compLoc;
}
- private CompositeLocation checkLocationFromIfStatementNode(MethodDescriptor md,
- SymbolTable nametable, IfStatementNode isn) {
-
- ClassDescriptor localCD = md.getClassDesc();
- Set<CompositeLocation> glbInputSet = new HashSet<CompositeLocation>();
+ private CompositeLocation generateNewConstraint(CompositeLocation currentCon,
+ CompositeLocation newCon) {
- CompositeLocation condLoc =
- checkLocationFromExpressionNode(md, nametable, isn.getCondition(), new CompositeLocation());
-
- addTypeLocation(isn.getCondition().getType(), condLoc);
- glbInputSet.add(condLoc);
-
- CompositeLocation locTrueBlock = checkLocationFromBlockNode(md, nametable, isn.getTrueBlock());
- if (locTrueBlock != null) {
- glbInputSet.add(locTrueBlock);
- // here, the location of conditional block should be higher than the
- // location of true/false blocks
- if (locTrueBlock != null && !CompositeLattice.isGreaterThan(condLoc, locTrueBlock)) {
- // error
- throw new Error(
- "The location of the if-condition statement is lower than the conditional block at "
- + localCD.getSourceFileName() + ":" + isn.getCondition().getNumLine());
- }
+ if (currentCon == null) {
+ return newCon;
+ } else {
+ // compute GLB of current constraint and new constraint
+ Set<CompositeLocation> inputSet = new HashSet<CompositeLocation>();
+ inputSet.add(currentCon);
+ inputSet.add(newCon);
+ return CompositeLattice.calculateGLB(inputSet, "");
}
- if (isn.getFalseBlock() != null) {
- CompositeLocation locFalseBlock =
- checkLocationFromBlockNode(md, nametable, isn.getFalseBlock());
+ }
- if (locFalseBlock != null) {
- glbInputSet.add(locFalseBlock);
+ private CompositeLocation checkLocationFromIfStatementNode(MethodDescriptor md,
+ SymbolTable nametable, IfStatementNode isn, CompositeLocation constraint) {
- if (!CompositeLattice.isGreaterThan(condLoc, locFalseBlock)) {
- // error
- throw new Error(
- "The location of the if-condition statement is lower than the conditional block at "
- + localCD.getSourceFileName() + ":" + isn.getCondition().getNumLine());
- }
- }
+ CompositeLocation condLoc =
+ checkLocationFromExpressionNode(md, nametable, isn.getCondition(), new CompositeLocation(),
+ constraint, false);
- }
+ addLocationType(isn.getCondition().getType(), condLoc);
- // return GLB location of condition, true, and false block
- CompositeLocation glbLoc = CompositeLattice.calculateGLB(glbInputSet);
+ constraint = generateNewConstraint(constraint, condLoc);
+ checkLocationFromBlockNode(md, nametable, isn.getTrueBlock(), constraint);
- return glbLoc;
+ if (isn.getFalseBlock() != null) {
+ checkLocationFromBlockNode(md, nametable, isn.getFalseBlock(), constraint);
+ }
+
+ return new CompositeLocation();
}
private CompositeLocation checkLocationFromDeclarationNode(MethodDescriptor md,
- SymbolTable nametable, DeclarationNode dn) {
+ SymbolTable nametable, DeclarationNode dn, CompositeLocation constraint) {
VarDescriptor vd = dn.getVarDescriptor();
if (dn.getExpression() != null) {
CompositeLocation expressionLoc =
checkLocationFromExpressionNode(md, nametable, dn.getExpression(),
- new CompositeLocation());
+ new CompositeLocation(), constraint, false);
// addTypeLocation(dn.getExpression().getType(), expressionLoc);
if (expressionLoc != null) {
// checking location order
- if (!CompositeLattice.isGreaterThan(expressionLoc, destLoc)) {
+ if (!CompositeLattice.isGreaterThan(expressionLoc, destLoc,
+ generateErrorMessage(md.getClassDesc(), dn))) {
throw new Error("The value flow from " + expressionLoc + " to " + destLoc
+ " does not respect location hierarchy on the assignment " + dn.printNode(0)
+ " at " + md.getClassDesc().getSourceFileName() + "::" + dn.getNumLine());
}
private CompositeLocation checkLocationFromBlockExpressionNode(MethodDescriptor md,
- SymbolTable nametable, BlockExpressionNode ben) {
+ SymbolTable nametable, BlockExpressionNode ben, CompositeLocation constraint) {
CompositeLocation compLoc =
- checkLocationFromExpressionNode(md, nametable, ben.getExpression(), null);
+ checkLocationFromExpressionNode(md, nametable, ben.getExpression(), null, constraint, false);
// addTypeLocation(ben.getExpression().getType(), compLoc);
return compLoc;
}
private CompositeLocation checkLocationFromExpressionNode(MethodDescriptor md,
- SymbolTable nametable, ExpressionNode en, CompositeLocation loc) {
+ SymbolTable nametable, ExpressionNode en, CompositeLocation loc,
+ CompositeLocation constraint, boolean isLHS) {
CompositeLocation compLoc = null;
switch (en.kind()) {
case Kind.AssignmentNode:
- compLoc = checkLocationFromAssignmentNode(md, nametable, (AssignmentNode) en, loc);
+ compLoc =
+ checkLocationFromAssignmentNode(md, nametable, (AssignmentNode) en, loc, constraint);
break;
case Kind.FieldAccessNode:
- compLoc = checkLocationFromFieldAccessNode(md, nametable, (FieldAccessNode) en, loc);
+ compLoc =
+ checkLocationFromFieldAccessNode(md, nametable, (FieldAccessNode) en, loc, constraint);
break;
case Kind.NameNode:
- compLoc = checkLocationFromNameNode(md, nametable, (NameNode) en, loc);
+ compLoc = checkLocationFromNameNode(md, nametable, (NameNode) en, loc, constraint);
break;
case Kind.OpNode:
- compLoc = checkLocationFromOpNode(md, nametable, (OpNode) en);
+ compLoc = checkLocationFromOpNode(md, nametable, (OpNode) en, constraint);
break;
case Kind.CreateObjectNode:
break;
case Kind.ArrayAccessNode:
- compLoc = checkLocationFromArrayAccessNode(md, nametable, (ArrayAccessNode) en);
+ compLoc =
+ checkLocationFromArrayAccessNode(md, nametable, (ArrayAccessNode) en, constraint, isLHS);
break;
case Kind.LiteralNode:
break;
case Kind.MethodInvokeNode:
- compLoc = checkLocationFromMethodInvokeNode(md, nametable, (MethodInvokeNode) en, loc);
+ compLoc =
+ checkLocationFromMethodInvokeNode(md, nametable, (MethodInvokeNode) en, loc, constraint);
break;
case Kind.TertiaryNode:
- compLoc = checkLocationFromTertiaryNode(md, nametable, (TertiaryNode) en);
+ compLoc = checkLocationFromTertiaryNode(md, nametable, (TertiaryNode) en, constraint);
break;
case Kind.CastNode:
- compLoc = checkLocationFromCastNode(md, nametable, (CastNode) en);
+ compLoc = checkLocationFromCastNode(md, nametable, (CastNode) en, constraint);
break;
// case Kind.InstanceOfNode:
}
private CompositeLocation checkLocationFromCastNode(MethodDescriptor md, SymbolTable nametable,
- CastNode cn) {
+ CastNode cn, CompositeLocation constraint) {
ExpressionNode en = cn.getExpression();
- return checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation());
+ return checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation(), constraint,
+ false);
}
private CompositeLocation checkLocationFromTertiaryNode(MethodDescriptor md,
- SymbolTable nametable, TertiaryNode tn) {
+ SymbolTable nametable, TertiaryNode tn, CompositeLocation constraint) {
ClassDescriptor cd = md.getClassDesc();
CompositeLocation condLoc =
- checkLocationFromExpressionNode(md, nametable, tn.getCond(), new CompositeLocation());
- addTypeLocation(tn.getCond().getType(), condLoc);
+ checkLocationFromExpressionNode(md, nametable, tn.getCond(), new CompositeLocation(),
+ constraint, false);
+ addLocationType(tn.getCond().getType(), condLoc);
CompositeLocation trueLoc =
- checkLocationFromExpressionNode(md, nametable, tn.getTrueExpr(), new CompositeLocation());
- addTypeLocation(tn.getTrueExpr().getType(), trueLoc);
+ checkLocationFromExpressionNode(md, nametable, tn.getTrueExpr(), new CompositeLocation(),
+ constraint, false);
+ addLocationType(tn.getTrueExpr().getType(), trueLoc);
CompositeLocation falseLoc =
- checkLocationFromExpressionNode(md, nametable, tn.getFalseExpr(), new CompositeLocation());
- addTypeLocation(tn.getFalseExpr().getType(), falseLoc);
+ checkLocationFromExpressionNode(md, nametable, tn.getFalseExpr(), new CompositeLocation(),
+ constraint, false);
+ addLocationType(tn.getFalseExpr().getType(), falseLoc);
+
+ // locations from true/false branches can be TOP when there are only literal
+ // values
+ // in this case, we don't need to check flow down rule!
// check if condLoc is higher than trueLoc & falseLoc
- if (!CompositeLattice.isGreaterThan(condLoc, trueLoc)) {
+ if (!trueLoc.get(0).isTop()
+ && !CompositeLattice.isGreaterThan(condLoc, trueLoc, generateErrorMessage(cd, tn))) {
throw new Error(
"The location of the condition expression is lower than the true expression at "
+ cd.getSourceFileName() + ":" + tn.getCond().getNumLine());
}
- if (!CompositeLattice.isGreaterThan(condLoc, falseLoc)) {
+ if (!falseLoc.get(0).isTop()
+ && !CompositeLattice.isGreaterThan(condLoc, falseLoc,
+ generateErrorMessage(cd, tn.getCond()))) {
throw new Error(
"The location of the condition expression is lower than the true expression at "
+ cd.getSourceFileName() + ":" + tn.getCond().getNumLine());
glbInputSet.add(trueLoc);
glbInputSet.add(falseLoc);
- return CompositeLattice.calculateGLB(glbInputSet);
+ return CompositeLattice.calculateGLB(glbInputSet, generateErrorMessage(cd, tn));
}
private CompositeLocation checkLocationFromMethodInvokeNode(MethodDescriptor md,
- SymbolTable nametable, MethodInvokeNode min, CompositeLocation loc) {
-
- checkCalleeConstraints(md, nametable, min);
+ SymbolTable nametable, MethodInvokeNode min, CompositeLocation loc,
+ CompositeLocation constraint) {
CompositeLocation baseLocation = null;
if (min.getExpression() != null) {
baseLocation =
checkLocationFromExpressionNode(md, nametable, min.getExpression(),
- new CompositeLocation());
+ new CompositeLocation(), constraint, false);
} else {
String thisLocId = ssjava.getMethodLattice(md).getThisLoc();
baseLocation = new CompositeLocation(new Location(md, thisLocId));
}
+ checkCalleeConstraints(md, nametable, min, baseLocation, constraint);
+
if (!min.getMethod().getReturnType().isVoid()) {
// If method has a return value, compute the highest possible return
// location in the caller's perspective
CompositeLocation ceilingLoc =
- computeCeilingLocationForCaller(md, nametable, min, baseLocation);
+ computeCeilingLocationForCaller(md, nametable, min, baseLocation, constraint);
return ceilingLoc;
}
}
private CompositeLocation computeCeilingLocationForCaller(MethodDescriptor md,
- SymbolTable nametable, MethodInvokeNode min, CompositeLocation baseLocation) {
+ SymbolTable nametable, MethodInvokeNode min, CompositeLocation baseLocation,
+ CompositeLocation constraint) {
List<CompositeLocation> argList = new ArrayList<CompositeLocation>();
// by default, method has a THIS parameter
for (int i = 0; i < min.numArgs(); i++) {
ExpressionNode en = min.getArg(i);
CompositeLocation callerArg =
- checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation());
+ checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation(), constraint,
+ false);
argList.add(callerArg);
}
- return md2ReturnLocGen.get(min.getMethod()).computeReturnLocation(argList);
+ System.out.println("\n## computeReturnLocation=" + min.getMethod() + " argList=" + argList);
+ CompositeLocation compLoc = md2ReturnLocGen.get(min.getMethod()).computeReturnLocation(argList);
+ DeltaLocation delta = new DeltaLocation(compLoc, 1);
+ System.out.println("##computeReturnLocation=" + delta);
+
+ return delta;
}
private void checkCalleeConstraints(MethodDescriptor md, SymbolTable nametable,
- MethodInvokeNode min) {
+ MethodInvokeNode min, CompositeLocation callerBaseLoc, CompositeLocation constraint) {
+
+ MethodDescriptor calleemd = min.getMethod();
- if (min.numArgs() > 1) {
+ MethodLattice<String> calleeLattice = ssjava.getMethodLattice(calleemd);
+ CompositeLocation calleeThisLoc =
+ new CompositeLocation(new Location(calleemd, calleeLattice.getThisLoc()));
+
+ List<CompositeLocation> callerArgList = new ArrayList<CompositeLocation>();
+ List<CompositeLocation> calleeParamList = new ArrayList<CompositeLocation>();
+
+ if (min.numArgs() > 0) {
// caller needs to guarantee that it passes arguments in regarding to
// callee's hierarchy
+
+ // setup caller args set
+ // first, add caller's base(this) location
+ callerArgList.add(callerBaseLoc);
+ // second, add caller's arguments
for (int i = 0; i < min.numArgs(); i++) {
ExpressionNode en = min.getArg(i);
- CompositeLocation callerArg1 =
- checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation());
-
- ClassDescriptor calleecd = min.getMethod().getClassDesc();
- VarDescriptor calleevd = (VarDescriptor) min.getMethod().getParameter(i);
- CompositeLocation calleeLoc1 = d2loc.get(calleevd);
+ CompositeLocation callerArgLoc =
+ checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation(), constraint,
+ false);
+ callerArgList.add(callerArgLoc);
+ }
- if (!callerArg1.get(0).isTop()) {
- // here, check if ordering relations among caller's args respect
- // ordering relations in-between callee's args
- for (int currentIdx = 0; currentIdx < min.numArgs(); currentIdx++) {
- if (currentIdx != i) { // skip itself
- ExpressionNode argExp = min.getArg(currentIdx);
+ // setup callee params set
+ // first, add callee's this location
+ calleeParamList.add(calleeThisLoc);
+ // second, add callee's parameters
+ for (int i = 0; i < calleemd.numParameters(); i++) {
+ VarDescriptor calleevd = (VarDescriptor) calleemd.getParameter(i);
+ CompositeLocation calleeLoc = d2loc.get(calleevd);
+ calleeParamList.add(calleeLoc);
+ }
- CompositeLocation callerArg2 =
- checkLocationFromExpressionNode(md, nametable, argExp, new CompositeLocation());
+ // here, check if ordering relations among caller's args respect
+ // ordering relations in-between callee's args
+ CHECK: for (int i = 0; i < calleeParamList.size(); i++) {
+ CompositeLocation calleeLoc1 = calleeParamList.get(i);
+ CompositeLocation callerLoc1 = callerArgList.get(i);
- VarDescriptor calleevd2 = (VarDescriptor) min.getMethod().getParameter(currentIdx);
- CompositeLocation calleeLoc2 = d2loc.get(calleevd2);
+ for (int j = 0; j < calleeParamList.size(); j++) {
+ if (i != j) {
+ CompositeLocation calleeLoc2 = calleeParamList.get(j);
+ CompositeLocation callerLoc2 = callerArgList.get(j);
- boolean callerResult = CompositeLattice.isGreaterThan(callerArg1, callerArg2);
- boolean calleeResult = CompositeLattice.isGreaterThan(calleeLoc1, calleeLoc2);
+ if (callerLoc1.get(callerLoc1.getSize() - 1).isTop()
+ || callerLoc2.get(callerLoc2.getSize() - 1).isTop()) {
+ continue CHECK;
+ }
- if (calleeResult && !callerResult) {
- // If calleeLoc1 is higher than calleeLoc2
- // then, caller should have same ordering relation in-bet
- // callerLoc1 & callerLoc2
+ int callerResult =
+ CompositeLattice.compare(callerLoc1, callerLoc2, true,
+ generateErrorMessage(md.getClassDesc(), min));
+ int calleeResult =
+ CompositeLattice.compare(calleeLoc1, calleeLoc2, true,
+ generateErrorMessage(md.getClassDesc(), min));
+
+ if (calleeResult == ComparisonResult.GREATER
+ && callerResult != ComparisonResult.GREATER) {
+ // If calleeLoc1 is higher than calleeLoc2
+ // then, caller should have same ordering relation in-bet
+ // callerLoc1 & callerLoc2
+
+ String paramName1, paramName2;
+
+ if (i == 0) {
+ paramName1 = "'THIS'";
+ } else {
+ paramName1 = "'parameter " + calleemd.getParamName(i - 1) + "'";
+ }
- throw new Error("Caller doesn't respect ordering relations among method arguments:"
- + md.getClassDesc().getSourceFileName() + ":" + min.getNumLine());
+ if (j == 0) {
+ paramName2 = "'THIS'";
+ } else {
+ paramName2 = "'parameter " + calleemd.getParamName(j - 1) + "'";
}
+ throw new Error(
+ "Caller doesn't respect an ordering relation among method arguments: callee expects that "
+ + paramName1 + " should be higher than " + paramName2 + " in " + calleemd
+ + " at " + md.getClassDesc().getSourceFileName() + ":" + min.getNumLine());
}
}
- }
+ }
}
}
}
private CompositeLocation checkLocationFromArrayAccessNode(MethodDescriptor md,
- SymbolTable nametable, ArrayAccessNode aan) {
-
- // return glb location of array itself and index
+ SymbolTable nametable, ArrayAccessNode aan, CompositeLocation constraint, boolean isLHS) {
ClassDescriptor cd = md.getClassDesc();
- Set<CompositeLocation> glbInputSet = new HashSet<CompositeLocation>();
-
CompositeLocation arrayLoc =
- checkLocationFromExpressionNode(md, nametable, aan.getExpression(), new CompositeLocation());
+ checkLocationFromExpressionNode(md, nametable, aan.getExpression(),
+ new CompositeLocation(), constraint, isLHS);
// addTypeLocation(aan.getExpression().getType(), arrayLoc);
- glbInputSet.add(arrayLoc);
CompositeLocation indexLoc =
- checkLocationFromExpressionNode(md, nametable, aan.getIndex(), new CompositeLocation());
- glbInputSet.add(indexLoc);
+ checkLocationFromExpressionNode(md, nametable, aan.getIndex(), new CompositeLocation(),
+ constraint, isLHS);
// addTypeLocation(aan.getIndex().getType(), indexLoc);
- CompositeLocation glbLoc = CompositeLattice.calculateGLB(glbInputSet);
- return glbLoc;
+ if (isLHS) {
+ if (!CompositeLattice.isGreaterThan(indexLoc, arrayLoc, generateErrorMessage(cd, aan))) {
+ throw new Error("Array index value is not higher than array location at "
+ + generateErrorMessage(cd, aan));
+ }
+ return arrayLoc;
+ } else {
+ Set<CompositeLocation> inputGLB = new HashSet<CompositeLocation>();
+ inputGLB.add(arrayLoc);
+ inputGLB.add(indexLoc);
+ return CompositeLattice.calculateGLB(inputGLB, generateErrorMessage(cd, aan));
+ }
+
}
private CompositeLocation checkLocationFromCreateObjectNode(MethodDescriptor md,
ClassDescriptor cd = md.getClassDesc();
- // check arguments
- Set<CompositeLocation> glbInputSet = new HashSet<CompositeLocation>();
- for (int i = 0; i < con.numArgs(); i++) {
- ExpressionNode en = con.getArg(i);
- CompositeLocation argLoc =
- checkLocationFromExpressionNode(md, nametable, en, new CompositeLocation());
- glbInputSet.add(argLoc);
- addTypeLocation(en.getType(), argLoc);
- }
-
- // check array initializers
- // if ((con.getArrayInitializer() != null)) {
- // checkLocationFromArrayInitializerNode(md, nametable,
- // con.getArrayInitializer());
- // }
-
- if (glbInputSet.size() > 0) {
- return CompositeLattice.calculateGLB(glbInputSet);
- }
-
CompositeLocation compLoc = new CompositeLocation();
compLoc.addLocation(Location.createTopLocation(md));
return compLoc;
}
private CompositeLocation checkLocationFromOpNode(MethodDescriptor md, SymbolTable nametable,
- OpNode on) {
+ OpNode on, CompositeLocation constraint) {
ClassDescriptor cd = md.getClassDesc();
CompositeLocation leftLoc = new CompositeLocation();
- leftLoc = checkLocationFromExpressionNode(md, nametable, on.getLeft(), leftLoc);
+ leftLoc =
+ checkLocationFromExpressionNode(md, nametable, on.getLeft(), leftLoc, constraint, false);
// addTypeLocation(on.getLeft().getType(), leftLoc);
CompositeLocation rightLoc = new CompositeLocation();
if (on.getRight() != null) {
- rightLoc = checkLocationFromExpressionNode(md, nametable, on.getRight(), rightLoc);
+ rightLoc =
+ checkLocationFromExpressionNode(md, nametable, on.getRight(), rightLoc, constraint, false);
// addTypeLocation(on.getRight().getType(), rightLoc);
}
- // System.out.println("checking op node=" + on.printNode(0));
- // System.out.println("left loc=" + leftLoc + " from " +
- // on.getLeft().getClass());
- // System.out.println("right loc=" + rightLoc + " from " +
- // on.getRight().getClass());
+ System.out.println("\n# OP NODE=" + on.printNode(0));
+ System.out.println("# left loc=" + leftLoc + " from " + on.getLeft().getClass());
+ if (on.getRight() != null) {
+ System.out.println("# right loc=" + rightLoc + " from " + on.getRight().getClass());
+ }
Operation op = on.getOp();
Set<CompositeLocation> inputSet = new HashSet<CompositeLocation>();
inputSet.add(leftLoc);
inputSet.add(rightLoc);
- CompositeLocation glbCompLoc = CompositeLattice.calculateGLB(inputSet);
+ CompositeLocation glbCompLoc =
+ CompositeLattice.calculateGLB(inputSet, generateErrorMessage(cd, on));
+ System.out.println("# glbCompLoc=" + glbCompLoc);
return glbCompLoc;
default:
}
private CompositeLocation checkLocationFromNameNode(MethodDescriptor md, SymbolTable nametable,
- NameNode nn, CompositeLocation loc) {
+ NameNode nn, CompositeLocation loc, CompositeLocation constraint) {
NameDescriptor nd = nn.getName();
if (nd.getBase() != null) {
-
- loc = checkLocationFromExpressionNode(md, nametable, nn.getExpression(), loc);
- // addTypeLocation(nn.getExpression().getType(), loc);
+ loc =
+ checkLocationFromExpressionNode(md, nametable, nn.getExpression(), loc, constraint, false);
} else {
String varname = nd.toString();
-
if (varname.equals("this")) {
// 'this' itself!
MethodLattice<String> methodLattice = ssjava.getMethodLattice(md);
Location locElement = new Location(md, thisLocId);
loc.addLocation(locElement);
return loc;
+
}
+
Descriptor d = (Descriptor) nametable.get(varname);
// CompositeLocation localLoc = null;
} else if (d instanceof FieldDescriptor) {
// the type of field descriptor has a location!
FieldDescriptor fd = (FieldDescriptor) d;
-
if (fd.isStatic()) {
if (fd.isFinal()) {
// if it is 'static final', the location has TOP since no one can
// change its value
loc.addLocation(Location.createTopLocation(md));
+ return loc;
} else {
// if 'static', the location has pre-assigned global loc
MethodLattice<String> localLattice = ssjava.getMethodLattice(md);
Location fieldLoc = (Location) fd.getType().getExtension();
loc.addLocation(fieldLoc);
+ } else if (d == null) {
+
+ // check if the var is a static field of the class
+ FieldDescriptor fd = nn.getField();
+ ClassDescriptor cd = nn.getClassDesc();
+
+ if (fd != null && cd != null) {
+
+ if (fd.isStatic() && fd.isFinal()) {
+ loc.addLocation(Location.createTopLocation(md));
+ return loc;
+ } else {
+ MethodLattice<String> localLattice = ssjava.getMethodLattice(md);
+ Location fieldLoc = new Location(md, localLattice.getThisLoc());
+ loc.addLocation(fieldLoc);
+ }
+ }
+
}
}
return loc;
}
private CompositeLocation checkLocationFromFieldAccessNode(MethodDescriptor md,
- SymbolTable nametable, FieldAccessNode fan, CompositeLocation loc) {
+ SymbolTable nametable, FieldAccessNode fan, CompositeLocation loc,
+ CompositeLocation constraint) {
ExpressionNode left = fan.getExpression();
- loc = checkLocationFromExpressionNode(md, nametable, left, loc);
- // addTypeLocation(left.getType(), loc);
+ TypeDescriptor ltd = left.getType();
+
+ FieldDescriptor fd = fan.getField();
+
+ String varName = null;
+ if (left.kind() == Kind.NameNode) {
+ NameDescriptor nd = ((NameNode) left).getName();
+ varName = nd.toString();
+ }
+
+ if (ltd.isClassNameRef() || (varName != null && varName.equals("this"))) {
+ // using a class name directly or access using this
+ if (fd.isStatic() && fd.isFinal()) {
+ loc.addLocation(Location.createTopLocation(md));
+ return loc;
+ }
+ }
+ loc = checkLocationFromExpressionNode(md, nametable, left, loc, constraint, false);
if (!left.getType().isPrimitive()) {
- FieldDescriptor fd = fan.getField();
- Location fieldLoc = (Location) fd.getType().getExtension();
+ Location fieldLoc = getFieldLocation(fd);
loc.addLocation(fieldLoc);
}
return loc;
}
+ private Location getFieldLocation(FieldDescriptor fd) {
+
+ Location fieldLoc = (Location) fd.getType().getExtension();
+
+ // handle the case that method annotation checking skips checking field
+ // declaration
+ if (fieldLoc == null) {
+ fieldLoc = checkFieldDeclaration(fd.getClassDescriptor(), fd);
+ }
+
+ return fieldLoc;
+
+ }
+
private CompositeLocation checkLocationFromAssignmentNode(MethodDescriptor md,
- SymbolTable nametable, AssignmentNode an, CompositeLocation loc) {
+ SymbolTable nametable, AssignmentNode an, CompositeLocation loc, CompositeLocation constraint) {
+
+ System.out.println("\n# ASSIGNMENTNODE=" + an.printNode(0));
ClassDescriptor cd = md.getClassDesc();
+ Set<CompositeLocation> inputGLBSet = new HashSet<CompositeLocation>();
+
boolean postinc = true;
if (an.getOperation().getBaseOp() == null
|| (an.getOperation().getBaseOp().getOp() != Operation.POSTINC && an.getOperation()
.getBaseOp().getOp() != Operation.POSTDEC))
postinc = false;
+ // if LHS is array access node, need to check if array index is higher
+ // than array itself
CompositeLocation destLocation =
- checkLocationFromExpressionNode(md, nametable, an.getDest(), new CompositeLocation());
+ checkLocationFromExpressionNode(md, nametable, an.getDest(), new CompositeLocation(),
+ constraint, true);
- CompositeLocation srcLocation = new CompositeLocation();
+ CompositeLocation rhsLocation;
+ CompositeLocation srcLocation;
if (!postinc) {
- if (hasOnlyLiteralValue(an.getSrc())) {
- // if source is literal value, src location is TOP. so do not need to
- // compare!
- return destLocation;
+ rhsLocation =
+ checkLocationFromExpressionNode(md, nametable, an.getSrc(), new CompositeLocation(),
+ constraint, false);
+
+ System.out.println("dstLocation=" + destLocation);
+ System.out.println("rhsLocation=" + rhsLocation);
+ System.out.println("constraint=" + constraint);
+
+ srcLocation = rhsLocation;
+
+ if (!rhsLocation.get(rhsLocation.getSize() - 1).isTop()) {
+ if (constraint != null) {
+ inputGLBSet.add(rhsLocation);
+ inputGLBSet.add(constraint);
+ srcLocation = CompositeLattice.calculateGLB(inputGLBSet, generateErrorMessage(cd, an));
+ }
}
- srcLocation = new CompositeLocation();
- srcLocation = checkLocationFromExpressionNode(md, nametable, an.getSrc(), srcLocation);
- // System.out.println(" an= " + an.printNode(0) + " an.getSrc()=" +
- // an.getSrc().getClass()
- // + " at " + cd.getSourceFileName() + "::" + an.getNumLine());
- // System.out.println("srcLocation=" + srcLocation);
- // System.out.println("dstLocation=" + destLocation);
- if (!CompositeLattice.isGreaterThan(srcLocation, destLocation)) {
+
+ if (!CompositeLattice.isGreaterThan(srcLocation, destLocation, generateErrorMessage(cd, an))) {
throw new Error("The value flow from " + srcLocation + " to " + destLocation
+ " does not respect location hierarchy on the assignment " + an.printNode(0) + " at "
+ cd.getSourceFileName() + "::" + an.getNumLine());
}
+
} else {
destLocation =
- srcLocation = checkLocationFromExpressionNode(md, nametable, an.getDest(), srcLocation);
+ rhsLocation =
+ checkLocationFromExpressionNode(md, nametable, an.getDest(), new CompositeLocation(),
+ constraint, false);
+
+ if (constraint != null) {
+ inputGLBSet.add(rhsLocation);
+ inputGLBSet.add(constraint);
+ srcLocation = CompositeLattice.calculateGLB(inputGLBSet, generateErrorMessage(cd, an));
+ } else {
+ srcLocation = rhsLocation;
+ }
+
+ System.out.println("srcLocation=" + srcLocation);
+ System.out.println("rhsLocation=" + rhsLocation);
+ System.out.println("constraint=" + constraint);
- if (!CompositeLattice.isGreaterThan(srcLocation, destLocation)) {
+ if (!CompositeLattice.isGreaterThan(srcLocation, destLocation, generateErrorMessage(cd, an))) {
throw new Error("Location " + destLocation
+ " is not allowed to have the value flow that moves within the same location at "
+ cd.getSourceFileName() + "::" + an.getNumLine());
if (locDec.startsWith(SSJavaAnalysis.DELTA)) {
DeltaLocation deltaLoc = parseDeltaDeclaration(md, n, locDec);
d2loc.put(vd, deltaLoc);
- addTypeLocation(vd.getType(), deltaLoc);
+ addLocationType(vd.getType(), deltaLoc);
} else {
CompositeLocation compLoc = parseLocationDeclaration(md, n, locDec);
+
+ Location lastElement = compLoc.get(compLoc.getSize() - 1);
+ if (ssjava.isSharedLocation(lastElement)) {
+ ssjava.mapSharedLocation2Descriptor(lastElement, vd);
+ }
+
d2loc.put(vd, compLoc);
- addTypeLocation(vd.getType(), compLoc);
+ addLocationType(vd.getType(), compLoc);
}
}
return deltaLoc;
}
- private Location parseFieldLocDeclaraton(String decl) {
+ private Location parseFieldLocDeclaraton(String decl, String msg) throws Exception {
int idx = decl.indexOf(".");
+
String className = decl.substring(0, idx);
String fieldName = decl.substring(idx + 1);
+ className.replaceAll(" ", "");
+ fieldName.replaceAll(" ", "");
+
Descriptor d = state.getClassSymbolTable().get(className);
+ if (d == null) {
+ System.out.println("state.getClassSymbolTable()=" + state.getClassSymbolTable());
+ throw new Error("The class in the location declaration '" + decl + "' does not exist at "
+ + msg);
+ }
+
assert (d instanceof ClassDescriptor);
SSJavaLattice<String> lattice = ssjava.getClassLattice((ClassDescriptor) d);
if (!lattice.containsKey(fieldName)) {
throw new Error("The location " + fieldName + " is not defined in the field lattice of '"
- + className + "'.");
+ + className + "' at " + msg);
}
return new Location(d, fieldName);
SSJavaLattice<String> localLattice = CompositeLattice.getLatticeByDescriptor(md);
Location localLoc = new Location(md, localLocId);
if (localLattice == null || (!localLattice.containsKey(localLocId))) {
+ System.out.println("locDec=" + locDec);
throw new Error("Location " + localLocId
+ " is not defined in the local variable lattice at "
- + md.getClassDesc().getSourceFileName() + "::" + (n != null ? n.getNumLine() : "") + ".");
+ + md.getClassDesc().getSourceFileName() + "::" + (n != null ? n.getNumLine() : md) + ".");
}
compLoc.addLocation(localLoc);
for (int i = 1; i < locIdList.size(); i++) {
String locName = locIdList.get(i);
-
- Location fieldLoc = parseFieldLocDeclaraton(locName);
- // ClassDescriptor cd = fieldLocName2cd.get(locName);
- // SSJavaLattice<String> fieldLattice =
- // CompositeLattice.getLatticeByDescriptor(cd);
- //
- // if (fieldLattice == null || (!fieldLattice.containsKey(locName))) {
- // throw new Error("Location " + locName +
- // " is not defined in the field lattice at "
- // + cd.getSourceFileName() + ".");
- // }
- // Location fieldLoc = new Location(cd, locName);
- compLoc.addLocation(fieldLoc);
+ try {
+ Location fieldLoc =
+ parseFieldLocDeclaraton(locName, generateErrorMessage(md.getClassDesc(), n));
+ compLoc.addLocation(fieldLoc);
+ } catch (Exception e) {
+ throw new Error("The location declaration '" + locName + "' is wrong at "
+ + generateErrorMessage(md.getClassDesc(), n));
+ }
}
return compLoc;
assignLocationOfVarDescriptor(vd, md, nametable, dn);
}
- private void checkClass(ClassDescriptor cd) {
- // Check to see that methods respects ss property
- for (Iterator method_it = cd.getMethods(); method_it.hasNext();) {
- MethodDescriptor md = (MethodDescriptor) method_it.next();
- checkMethodDeclaration(cd, md);
- }
- }
-
private void checkDeclarationInClass(ClassDescriptor cd) {
// Check to see that fields are okay
for (Iterator field_it = cd.getFields(); field_it.hasNext();) {
FieldDescriptor fd = (FieldDescriptor) field_it.next();
- checkFieldDeclaration(cd, fd);
- }
- }
- private void checkMethodDeclaration(ClassDescriptor cd, MethodDescriptor md) {
- // TODO
+ if (!(fd.isFinal() && fd.isStatic())) {
+ checkFieldDeclaration(cd, fd);
+ } else {
+ // for static final, assign top location by default
+ Location loc = Location.createTopLocation(cd);
+ addLocationType(fd.getType(), loc);
+ }
+ }
}
- private void checkFieldDeclaration(ClassDescriptor cd, FieldDescriptor fd) {
+ private Location checkFieldDeclaration(ClassDescriptor cd, FieldDescriptor fd) {
Vector<AnnotationDescriptor> annotationVec = fd.getType().getAnnotationMarkers();
}
AnnotationDescriptor ad = annotationVec.elementAt(0);
+ Location loc = null;
if (ad.getType() == AnnotationDescriptor.SINGLE_ANNOTATION) {
-
if (ad.getMarker().equals(SSJavaAnalysis.LOC)) {
String locationID = ad.getValue();
// check if location is defined
+ " is not defined in the field lattice of class " + cd.getSymbol() + " at"
+ cd.getSourceFileName() + ".");
}
- Location loc = new Location(cd, locationID);
- // d2loc.put(fd, loc);
- addTypeLocation(fd.getType(), loc);
+ loc = new Location(cd, locationID);
+
+ if (ssjava.isSharedLocation(loc)) {
+ ssjava.mapSharedLocation2Descriptor(loc, fd);
+ }
+
+ addLocationType(fd.getType(), loc);
}
}
+ return loc;
}
- private void addTypeLocation(TypeDescriptor type, CompositeLocation loc) {
+ private void addLocationType(TypeDescriptor type, CompositeLocation loc) {
if (type != null) {
type.setExtension(loc);
}
}
- private void addTypeLocation(TypeDescriptor type, Location loc) {
+ private void addLocationType(TypeDescriptor type, Location loc) {
if (type != null) {
type.setExtension(loc);
}
static class CompositeLattice {
- public static boolean isGreaterThan(CompositeLocation loc1, CompositeLocation loc2) {
+ public static boolean isGreaterThan(CompositeLocation loc1, CompositeLocation loc2, String msg) {
- // System.out.println("isGreaterThan= " + loc1 + " " + loc2);
-
- int baseCompareResult = compareBaseLocationSet(loc1, loc2);
+ System.out.println("\nisGreaterThan=" + loc1 + " " + loc2 + " msg=" + msg);
+ int baseCompareResult = compareBaseLocationSet(loc1, loc2, true, false, msg);
if (baseCompareResult == ComparisonResult.EQUAL) {
if (compareDelta(loc1, loc2) == ComparisonResult.GREATER) {
return true;
}
- public static int compare(CompositeLocation loc1, CompositeLocation loc2) {
+ public static int compare(CompositeLocation loc1, CompositeLocation loc2, boolean ignore,
+ String msg) {
- // System.out.println("compare=" + loc1 + " " + loc2);
- int baseCompareResult = compareBaseLocationSet(loc1, loc2);
+ System.out.println("compare=" + loc1 + " " + loc2);
+ int baseCompareResult = compareBaseLocationSet(loc1, loc2, false, ignore, msg);
if (baseCompareResult == ComparisonResult.EQUAL) {
return compareDelta(loc1, loc2);
}
- private static int compareBaseLocationSet(CompositeLocation compLoc1, CompositeLocation compLoc2) {
+ private static int compareBaseLocationSet(CompositeLocation compLoc1,
+ CompositeLocation compLoc2, boolean awareSharedLoc, boolean ignore, String msg) {
// if compLoc1 is greater than compLoc2, return true
// else return false;
for (int i = 0; i < compLoc1.getSize(); i++) {
Location loc1 = compLoc1.get(i);
if (i >= compLoc2.getSize()) {
- throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
- + " because they are not comparable.");
+ if (ignore) {
+ return ComparisonResult.INCOMPARABLE;
+ } else {
+ throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
+ + " because they are not comparable at " + msg);
+ }
}
Location loc2 = compLoc2.get(i);
- if (!loc1.getDescriptor().equals(loc2.getDescriptor())) {
- throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
- + " because they are not comparable.");
- }
-
- Descriptor d1 = loc1.getDescriptor();
- Descriptor d2 = loc2.getDescriptor();
+ Descriptor descriptor = getCommonParentDescriptor(loc1, loc2, msg);
+ SSJavaLattice<String> lattice = getLatticeByDescriptor(descriptor);
- SSJavaLattice<String> lattice1 = getLatticeByDescriptor(d1);
- SSJavaLattice<String> lattice2 = getLatticeByDescriptor(d2);
-
- // check if the spin location is appeared only at the end of the
+ // check if the shared location is appeared only at the end of the
// composite location
- if (lattice1.getSpinLocSet().contains(loc1.getLocIdentifier())) {
+ if (lattice.getSharedLocSet().contains(loc1.getLocIdentifier())) {
if (i != (compLoc1.getSize() - 1)) {
- throw new Error("The spin location " + loc1.getLocIdentifier()
- + " cannot be appeared in the middle of composite location.");
+ throw new Error("The shared location " + loc1.getLocIdentifier()
+ + " cannot be appeared in the middle of composite location at" + msg);
}
}
- if (lattice2.getSpinLocSet().contains(loc2.getLocIdentifier())) {
+ if (lattice.getSharedLocSet().contains(loc2.getLocIdentifier())) {
if (i != (compLoc2.getSize() - 1)) {
- throw new Error("The spin location " + loc2.getLocIdentifier()
- + " cannot be appeared in the middle of composite location.");
+ throw new Error("The shared location " + loc2.getLocIdentifier()
+ + " cannot be appeared in the middle of composite location at " + msg);
}
}
- if (!lattice1.equals(lattice2)) {
- throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
- + " because they are not comparable.");
- }
+ // if (!lattice1.equals(lattice2)) {
+ // throw new Error("Failed to compare two locations of " + compLoc1 +
+ // " and " + compLoc2
+ // + " because they are not comparable at " + msg);
+ // }
if (loc1.getLocIdentifier().equals(loc2.getLocIdentifier())) {
numOfTie++;
// check if the current location is the spinning location
// note that the spinning location only can be appeared in the last
// part of the composite location
- if (numOfTie == compLoc1.getSize()
- && lattice1.getSpinLocSet().contains(loc1.getLocIdentifier())) {
+ if (awareSharedLoc && numOfTie == compLoc1.getSize()
+ && lattice.getSharedLocSet().contains(loc1.getLocIdentifier())) {
return ComparisonResult.GREATER;
}
continue;
- } else if (lattice1.isGreaterThan(loc1.getLocIdentifier(), loc2.getLocIdentifier())) {
+ } else if (lattice.isGreaterThan(loc1.getLocIdentifier(), loc2.getLocIdentifier())) {
return ComparisonResult.GREATER;
} else {
return ComparisonResult.LESS;
if (numOfTie == compLoc1.getSize()) {
if (numOfTie != compLoc2.getSize()) {
- throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
- + " because they are not comparable.");
+
+ if (ignore) {
+ return ComparisonResult.INCOMPARABLE;
+ } else {
+ throw new Error("Failed to compare two locations of " + compLoc1 + " and " + compLoc2
+ + " because they are not comparable at " + msg);
+ }
+
}
return ComparisonResult.EQUAL;
}
- public static CompositeLocation calculateGLB(Set<CompositeLocation> inputSet) {
+ public static CompositeLocation calculateGLB(Set<CompositeLocation> inputSet, String errMsg) {
- // System.out.println("Calculating GLB=" + inputSet);
+ System.out.println("Calculating GLB=" + inputSet);
CompositeLocation glbCompLoc = new CompositeLocation();
// calculate GLB of the first(priority) element
int maxTupleSize = 0;
CompositeLocation maxCompLoc = null;
+ Location prevPriorityLoc = null;
for (Iterator iterator = inputSet.iterator(); iterator.hasNext();) {
CompositeLocation compLoc = (CompositeLocation) iterator.next();
if (compLoc.getSize() > maxTupleSize) {
// check if priority location are coming from the same lattice
if (priorityDescriptor == null) {
priorityDescriptor = priorityLoc.getDescriptor();
- } else if (!priorityDescriptor.equals(priorityLoc.getDescriptor())) {
- throw new Error("Failed to calculate GLB of " + inputSet
- + " because they are from different lattices.");
+ } else {
+ priorityDescriptor = getCommonParentDescriptor(priorityLoc, prevPriorityLoc, errMsg);
}
+ prevPriorityLoc = priorityLoc;
+ // else if (!priorityDescriptor.equals(priorityLoc.getDescriptor())) {
+ // throw new Error("Failed to calculate GLB of " + inputSet
+ // + " because they are from different lattices.");
+ // }
}
SSJavaLattice<String> locOrder = getLatticeByDescriptor(priorityDescriptor);
glbCompLoc.addLocation(new Location(priorityDescriptor, glbOfPriorityLoc));
Set<CompositeLocation> compSet = locId2CompLocSet.get(glbOfPriorityLoc);
- // here find out composite location that has a maximum length tuple
- // if we have three input set: [A], [A,B], [A,B,C]
- // maximum length tuple will be [A,B,C]
- int max = 0;
- CompositeLocation maxFromCompSet = null;
- for (Iterator iterator = compSet.iterator(); iterator.hasNext();) {
- CompositeLocation c = (CompositeLocation) iterator.next();
- if (c.getSize() > max) {
- max = c.getSize();
- maxFromCompSet = c;
- }
- }
-
if (compSet == null) {
// when GLB(x1,x2)!=x1 and !=x2 : GLB case 4
// mean that the result is already lower than <x1,y1> and <x2,y2>
// in this case, do not take care about delta
// CompositeLocation inputComp = inputSet.iterator().next();
- CompositeLocation inputComp = maxCompLoc;
- for (int i = 1; i < inputComp.getSize(); i++) {
- glbCompLoc.addLocation(Location.createTopLocation(inputComp.get(i).getDescriptor()));
+ for (int i = 1; i < maxTupleSize; i++) {
+ glbCompLoc.addLocation(Location.createTopLocation(maxCompLoc.get(i).getDescriptor()));
}
} else {
- if (compSet.size() == 1) {
+ // here find out composite location that has a maximum length tuple
+ // if we have three input set: [A], [A,B], [A,B,C]
+ // maximum length tuple will be [A,B,C]
+ int max = 0;
+ CompositeLocation maxFromCompSet = null;
+ for (Iterator iterator = compSet.iterator(); iterator.hasNext();) {
+ CompositeLocation c = (CompositeLocation) iterator.next();
+ if (c.getSize() > max) {
+ max = c.getSize();
+ maxFromCompSet = c;
+ }
+ }
+
+ if (compSet.size() == 1) {
// if GLB(x1,x2)==x1 or x2 : GLB case 2,3
CompositeLocation comp = compSet.iterator().next();
for (int i = 1; i < comp.getSize(); i++) {
// if more than one location shares the same priority GLB
// need to calculate the rest of GLB loc
- // int compositeLocSize = compSet.iterator().next().getSize();
- int compositeLocSize = maxFromCompSet.getSize();
-
- Set<String> glbInputSet = new HashSet<String>();
- Descriptor currentD = null;
- for (int i = 1; i < compositeLocSize; i++) {
- for (Iterator iterator = compSet.iterator(); iterator.hasNext();) {
- CompositeLocation compositeLocation = (CompositeLocation) iterator.next();
- if (compositeLocation.getSize() > i) {
- Location currentLoc = compositeLocation.get(i);
- currentD = currentLoc.getDescriptor();
- // making set of the current location sharing the same idx
- glbInputSet.add(currentLoc.getLocIdentifier());
- }
+ // setup input set starting from the second tuple item
+ Set<CompositeLocation> innerGLBInput = new HashSet<CompositeLocation>();
+ for (Iterator iterator = compSet.iterator(); iterator.hasNext();) {
+ CompositeLocation compLoc = (CompositeLocation) iterator.next();
+ CompositeLocation innerCompLoc = new CompositeLocation();
+ for (int idx = 1; idx < compLoc.getSize(); idx++) {
+ innerCompLoc.addLocation(compLoc.get(idx));
+ }
+ if (innerCompLoc.getSize() > 0) {
+ innerGLBInput.add(innerCompLoc);
}
- // calculate glb for the current lattice
+ }
- SSJavaLattice<String> currentLattice = getLatticeByDescriptor(currentD);
- String currentGLBLocId = currentLattice.getGLB(glbInputSet);
- glbCompLoc.addLocation(new Location(currentD, currentGLBLocId));
+ if (innerGLBInput.size() > 0) {
+ CompositeLocation innerGLB = CompositeLattice.calculateGLB(innerGLBInput, errMsg);
+ for (int idx = 0; idx < innerGLB.getSize(); idx++) {
+ glbCompLoc.addLocation(innerGLB.get(idx));
+ }
}
// if input location corresponding to glb is a delta, need to apply
}
}
+ System.out.println("GLB=" + glbCompLoc);
return glbCompLoc;
}
return lattice;
}
+ static Descriptor getCommonParentDescriptor(Location loc1, Location loc2, String msg) {
+
+ Descriptor d1 = loc1.getDescriptor();
+ Descriptor d2 = loc2.getDescriptor();
+
+ Descriptor descriptor;
+
+ if (d1 instanceof ClassDescriptor && d2 instanceof ClassDescriptor) {
+
+ if (d1.equals(d2)) {
+ descriptor = d1;
+ } else {
+ // identifying which one is parent class
+ Set<Descriptor> d1SubClassesSet = ssjava.tu.getSubClasses((ClassDescriptor) d1);
+ Set<Descriptor> d2SubClassesSet = ssjava.tu.getSubClasses((ClassDescriptor) d2);
+
+ if (d1 == null && d2 == null) {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ } else if (d1SubClassesSet != null && d1SubClassesSet.contains(d2)) {
+ descriptor = d1;
+ } else if (d2SubClassesSet != null && d2SubClassesSet.contains(d1)) {
+ descriptor = d2;
+ } else {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ }
+ }
+
+ } else if (d1 instanceof MethodDescriptor && d2 instanceof MethodDescriptor) {
+
+ if (d1.equals(d2)) {
+ descriptor = d1;
+ } else {
+
+ // identifying which one is parent class
+ MethodDescriptor md1 = (MethodDescriptor) d1;
+ MethodDescriptor md2 = (MethodDescriptor) d2;
+
+ if (!md1.matches(md2)) {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ }
+
+ Set<Descriptor> d1SubClassesSet =
+ ssjava.tu.getSubClasses(((MethodDescriptor) d1).getClassDesc());
+ Set<Descriptor> d2SubClassesSet =
+ ssjava.tu.getSubClasses(((MethodDescriptor) d2).getClassDesc());
+
+ if (d1 == null && d2 == null) {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ } else if (d1 != null && d1SubClassesSet.contains(d2)) {
+ descriptor = d1;
+ } else if (d2 != null && d2SubClassesSet.contains(d1)) {
+ descriptor = d2;
+ } else {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ }
+ }
+
+ } else {
+ throw new Error("Failed to compare two locations of " + loc1 + " and " + loc2
+ + " because they are not comparable at " + msg);
+ }
+
+ return descriptor;
+
+ }
+
}
class ComparisonResult {
Hashtable<Integer, Integer> paramIdx2paramType;
- public ReturnLocGenerator(CompositeLocation returnLoc, List<CompositeLocation> params) {
+ public ReturnLocGenerator(CompositeLocation returnLoc, List<CompositeLocation> params, String msg) {
// creating mappings
-
paramIdx2paramType = new Hashtable<Integer, Integer>();
for (int i = 0; i < params.size(); i++) {
CompositeLocation param = params.get(i);
- int compareResult = CompositeLattice.compare(param, returnLoc);
+ int compareResult = CompositeLattice.compare(param, returnLoc, true, msg);
int type;
if (compareResult == ComparisonResult.GREATER) {
// compute GLB of arguments subset that are same or higher than return
// location
- CompositeLocation glb = CompositeLattice.calculateGLB(inputGLB);
+ CompositeLocation glb = CompositeLattice.calculateGLB(inputGLB, "");
return glb;
}
}