/** * Check that the set of <code>LocalInstance</code>s <code>localsUsed</code>, which is the set of * locals used in the inner class declared by <code>cb</code> are initialized before the class * declaration. */ protected void checkLocalsUsedByInnerClass( FlowGraph graph, ClassBody cb, Set localsUsed, DataFlowItem dfIn, DataFlowItem dfOut) throws SemanticException { for (Iterator iter = localsUsed.iterator(); iter.hasNext(); ) { LocalInstance li = (LocalInstance) iter.next(); MinMaxInitCount initCount = (MinMaxInitCount) dfOut.initStatus.get(li); if (!currCBI.localDeclarations.contains(li)) { // the local wasn't defined in this scope. currCBI.outerLocalsUsed.add(li); } else if (initCount == null || InitCount.ZERO.equals(initCount.getMin())) { // initCount will in general not be null, as the local variable // li is declared in the current class; however, if the inner // class is declared in the initializer of the local variable // declaration, then initCount could in fact be null, as we // leave the inner class before we have performed flowLocalDecl // for the local variable declaration. throw new SemanticException( "Local variable \"" + li.name() + "\" must be initialized before the class " + "declaration.", cb.position()); } } }
/** * Check that each non static final field has been initialized exactly once, taking into account * the fact that constructors may call other constructors. * * @param cb The ClassBody of the class declaring the fields to check. * @throws SemanticException */ protected void checkNonStaticFinalFieldsInit(ClassBody cb) throws SemanticException { // for each non-static final field instance, check that all // constructors intialize it exactly once, taking into account constructor calls. for (Iterator iter = currCBI.currClassFinalFieldInitCounts.keySet().iterator(); iter.hasNext(); ) { FieldInstance fi = (FieldInstance) iter.next(); if (fi.flags().isFinal() && !fi.flags().isStatic()) { // the field is final and not static // it must be initialized exactly once. // navigate up through all of the the constructors // that this constructor calls. boolean fieldInitializedBeforeConstructors = false; MinMaxInitCount ic = (MinMaxInitCount) currCBI.currClassFinalFieldInitCounts.get(fi); if (ic != null && !InitCount.ZERO.equals(ic.getMin())) { fieldInitializedBeforeConstructors = true; } for (Iterator iter2 = currCBI.allConstructors.iterator(); iter2.hasNext(); ) { ConstructorDecl cd = (ConstructorDecl) iter2.next(); ConstructorInstance ciStart = cd.constructorInstance(); ConstructorInstance ci = ciStart; boolean isInitialized = fieldInitializedBeforeConstructors; while (ci != null) { Set s = (Set) currCBI.fieldsConstructorInitializes.get(ci); if (s != null && s.contains(fi)) { if (isInitialized) { throw new SemanticException( "field \"" + fi.name() + "\" might have already been initialized", cd.position()); } isInitialized = true; } ci = (ConstructorInstance) currCBI.constructorCalls.get(ci); } if (!isInitialized) { throw new SemanticException( "field \"" + fi.name() + "\" might not have been initialized", ciStart.position()); } } } } }
/** Perform necessary actions upon seeing the ConstructorDecl <code>cd</code>. */ protected void finishConstructorDecl( FlowGraph graph, ConstructorDecl cd, DataFlowItem dfIn, DataFlowItem dfOut) { ConstructorInstance ci = cd.constructorInstance(); // we need to set currCBI.fieldsConstructorInitializes correctly. // It is meant to contain the non-static final fields that the // constructor ci initializes. // // Note that dfOut.initStatus contains only the MinMaxInitCounts // for _normal_ termination of the constructor (see the // method confluence). This means that if dfOut says the min // count of the initialization for a final non-static field // is one, and that is different from what is recoreded in // currCBI.currClassFinalFieldInitCounts (which is the counts // of the initializations performed by initializers), then // the constructor does indeed initialize the field. Set s = new HashSet(); // go through every final non-static field in dfOut.initStatus Iterator iter = dfOut.initStatus.entrySet().iterator(); while (iter.hasNext()) { Entry e = (Entry) iter.next(); if (e.getKey() instanceof FieldInstance && ((FieldInstance) e.getKey()).flags().isFinal() && !((FieldInstance) e.getKey()).flags().isStatic()) { // we have a final non-static field FieldInstance fi = (FieldInstance) e.getKey(); MinMaxInitCount initCount = (MinMaxInitCount) e.getValue(); MinMaxInitCount origInitCount = (MinMaxInitCount) currCBI.currClassFinalFieldInitCounts.get(fi); if (initCount.getMin() == InitCount.ONE && (origInitCount == null || origInitCount.getMin() == InitCount.ZERO)) { // the constructor initialized this field s.add(fi); } } } if (!s.isEmpty()) { currCBI.fieldsConstructorInitializes.put(ci, s); } }
public Map flow(Item in, FlowGraph graph, Term n, Set succEdgeKeys) { if (in == DataFlowItem.NOT_REACHABLE) { return itemToMap(in, succEdgeKeys); } // in is either REACHABLE or REACHABLE_EX_ONLY. // return a map where all exception edges are REACHABLE_EX_ONLY, // and all non-exception edges are REACHABLE. Map m = itemToMap(DataFlowItem.REACHABLE_EX_ONLY, succEdgeKeys); if (succEdgeKeys.contains(FlowGraph.EDGE_KEY_OTHER)) { m.put(FlowGraph.EDGE_KEY_OTHER, DataFlowItem.REACHABLE); } if (succEdgeKeys.contains(FlowGraph.EDGE_KEY_TRUE)) { m.put(FlowGraph.EDGE_KEY_TRUE, DataFlowItem.REACHABLE); } if (succEdgeKeys.contains(FlowGraph.EDGE_KEY_FALSE)) { m.put(FlowGraph.EDGE_KEY_FALSE, DataFlowItem.REACHABLE); } return m; }