/** * Called by the {@link AOptionalType} node from {@link AOptionalType#apply(IAnalysis)}. * @param node the calling {@link AOptionalType} node */ public void caseAOptionalType(AOptionalType node, Q question) throws AnalysisException { _visitedNodes.add(node); inAOptionalType(node, question); { List<PDefinition> copy = new ArrayList<PDefinition>(node.getDefinitions()); for( PDefinition e : copy) { if(!_visitedNodes.contains(e)) { e.apply(this, question); } } } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this, question); } outAOptionalType(node, question); }
/** * Called by the {@link AOptionalType} node from {@link AOptionalType#apply(IPOFAnalysis)}. * @param node the calling {@link AOptionalType} node */ public void caseAOptionalType(AOptionalType node) throws AnalysisException { _visitedNodes.add(node); inAOptionalType(node); { List<PDefinition> copy = new ArrayList<PDefinition>(node.getDefinitions()); for( PDefinition e : copy) { if(!_visitedNodes.contains(e)) { e.apply(this); } } } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this); } outAOptionalType(node); }
/** * Called by the {@link AOptionalType} node from {@link AOptionalType#apply(IAnalysis)}. * @param node the calling {@link AOptionalType} node */ public void caseAOptionalType(AOptionalType node) throws AnalysisException { _visitedNodes.add(node); inAOptionalType(node); { List<PDefinition> copy = new ArrayList<PDefinition>(node.getDefinitions()); for( PDefinition e : copy) { if(!_visitedNodes.contains(e)) { e.apply(this); } } } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this); } outAOptionalType(node); }
/** * Called by the {@link AOptionalType} node from {@link AOptionalType#apply(IAnalysis)}. * @param node the calling {@link AOptionalType} node */ public A caseAOptionalType(AOptionalType node) throws AnalysisException { _visitedNodes.add(node); A retVal = createNewReturnValue(node); mergeReturns(retVal,inAOptionalType(node)); { List<PDefinition> copy = new ArrayList<PDefinition>(node.getDefinitions()); for( PDefinition e : copy) { if(!_visitedNodes.contains(e)) { mergeReturns(retVal,e.apply(this)); } } } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { mergeReturns(retVal,node.getType().apply(this)); } mergeReturns(retVal,outAOptionalType(node)); return retVal; }
/** * Called by the {@link AOptionalType} node from {@link AOptionalType#apply(IAnalysis)}. * @param node the calling {@link AOptionalType} node */ public A caseAOptionalType(AOptionalType node, Q question) throws AnalysisException { _visitedNodes.add(node); A retVal = createNewReturnValue(node, question); mergeReturns(retVal,inAOptionalType(node, question)); { List<PDefinition> copy = new ArrayList<PDefinition>(node.getDefinitions()); for( PDefinition e : copy) { if(!_visitedNodes.contains(e)) { mergeReturns(retVal,e.apply(this, question)); } } } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { mergeReturns(retVal,node.getType().apply(this, question)); } mergeReturns(retVal,outAOptionalType(node, question)); return retVal; }