@Override public LexNameList caseARenamedDefinition(ARenamedDefinition node) throws AnalysisException { LexNameList both = new LexNameList(node.getName()); both.add(node.getDef().getName()); return both; }
@Override public NameValuePairList caseARenamedDefinition(ARenamedDefinition def, Context initialContext) throws AnalysisException { NameValuePairList renamed = new NameValuePairList(); for (NameValuePair nv : af.createPDefinitionAssistant().getNamedValues(def.getDef(), initialContext)) { // We exclude any name from the definition other than the one // explicitly renamed. Otherwise, generated names like pre_f // come through and are not renamed. if (nv.name.equals(def.getDef().getName())) { renamed.add(new NameValuePair(def.getName(), nv.value)); } } return renamed; }
/** * Called by the {@link ARenamedDefinition} node from {@link ARenamedDefinition#apply(IAnalysis)}. * @param node the calling {@link ARenamedDefinition} node */ public void caseARenamedDefinition(ARenamedDefinition node) throws AnalysisException { _visitedNodes.add(node); inARenamedDefinition(node); if(node.getName() != null ) { node.getName().apply(this); } if(node.getClassDefinition() != null && !_visitedNodes.contains(node.getClassDefinition())) { node.getClassDefinition().apply(this); } if(node.getAccess() != null && !_visitedNodes.contains(node.getAccess())) { node.getAccess().apply(this); } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this); } if(node.getDef() != null && !_visitedNodes.contains(node.getDef())) { node.getDef().apply(this); } outARenamedDefinition(node); }
/** * Called by the {@link ARenamedDefinition} node from {@link ARenamedDefinition#apply(IPOFAnalysis)}. * @param node the calling {@link ARenamedDefinition} node */ public void caseARenamedDefinition(ARenamedDefinition node) throws AnalysisException { _visitedNodes.add(node); inARenamedDefinition(node); if(node.getName() != null ) { node.getName().apply(this); } if(node.getClassDefinition() != null && !_visitedNodes.contains(node.getClassDefinition())) { node.getClassDefinition().apply(this); } if(node.getAccess() != null && !_visitedNodes.contains(node.getAccess())) { node.getAccess().apply(this); } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this); } if(node.getDef() != null && !_visitedNodes.contains(node.getDef())) { node.getDef().apply(this); } outARenamedDefinition(node); }
/** * Called by the {@link ARenamedDefinition} node from {@link ARenamedDefinition#apply(IAnalysis)}. * @param node the calling {@link ARenamedDefinition} node */ public void caseARenamedDefinition(ARenamedDefinition node, Q question) throws AnalysisException { _visitedNodes.add(node); inARenamedDefinition(node, question); if(node.getName() != null ) { node.getName().apply(this, question); } if(node.getClassDefinition() != null && !_visitedNodes.contains(node.getClassDefinition())) { node.getClassDefinition().apply(this, question); } if(node.getAccess() != null && !_visitedNodes.contains(node.getAccess())) { node.getAccess().apply(this, question); } if(node.getType() != null && !_visitedNodes.contains(node.getType())) { node.getType().apply(this, question); } if(node.getDef() != null && !_visitedNodes.contains(node.getDef())) { node.getDef().apply(this, question); } outARenamedDefinition(node, question); }