@NotNull @Override protected UsageInfo[] findUsages() { ArrayList<UsageInfo> result = new ArrayList<UsageInfo>(); final PsiMethod toSearchFor = ((PsiMethod) mySettings.getToSearchFor()); if (!mySettings.generateDelegate()) { Collection<PsiReference> refs = MethodReferencesSearch.search( toSearchFor, GlobalSearchScope.projectScope(myProject), true) .findAll(); for (PsiReference ref1 : refs) { PsiElement ref = ref1.getElement(); if (ref instanceof PsiMethod && ((PsiMethod) ref).isConstructor()) { DefaultConstructorImplicitUsageInfo implicitUsageInfo = new DefaultConstructorImplicitUsageInfo( (PsiMethod) ref, ((PsiMethod) ref).getContainingClass(), toSearchFor); result.add(implicitUsageInfo); } else if (ref instanceof PsiClass) { result.add(new NoConstructorClassUsageInfo((PsiClass) ref)); } else if (!PsiTreeUtil.isAncestor(mySettings.getToReplaceIn(), ref, false)) { result.add(new ExternalUsageInfo(ref)); } else { result.add(new ChangedMethodCallInfo(ref)); } } } if (mySettings.replaceAllOccurrences()) { PsiElement[] exprs = GroovyIntroduceParameterUtil.getOccurrences(mySettings); for (PsiElement expr : exprs) { result.add(new InternalUsageInfo(expr)); } } else { if (mySettings.getExpression() != null) { result.add(new InternalUsageInfo(mySettings.getExpression())); } } Collection<PsiMethod> overridingMethods = OverridingMethodsSearch.search(toSearchFor, true).findAll(); for (PsiMethod overridingMethod : overridingMethods) { result.add(new UsageInfo(overridingMethod)); } final UsageInfo[] usageInfos = result.toArray(new UsageInfo[result.size()]); return UsageViewUtil.removeDuplicatedUsages(usageInfos); }
@Override protected boolean preprocessUsages(Ref<UsageInfo[]> refUsages) { UsageInfo[] usagesIn = refUsages.get(); MultiMap<PsiElement, String> conflicts = new MultiMap<PsiElement, String>(); if (!mySettings.generateDelegate()) { GroovyIntroduceParameterUtil.detectAccessibilityConflicts( mySettings.getExpression(), usagesIn, conflicts, mySettings.replaceFieldsWithGetters() != IntroduceParameterRefactoring.REPLACE_FIELDS_WITH_GETTERS_NONE, myProject); } final GrMethod toReplaceIn = (GrMethod) mySettings.getToReplaceIn(); if (mySettings.getExpression() != null && !toReplaceIn.hasModifierProperty(PsiModifier.PRIVATE)) { final AnySupers anySupers = new AnySupers(); mySettings.getExpression().accept(anySupers); if (anySupers.containsSupers()) { for (UsageInfo usageInfo : usagesIn) { if (!(usageInfo.getElement() instanceof PsiMethod) && !(usageInfo instanceof InternalUsageInfo)) { if (!PsiTreeUtil.isAncestor( toReplaceIn.getContainingClass(), usageInfo.getElement(), false)) { conflicts.putValue( mySettings.getExpression(), RefactoringBundle.message( "parameter.initializer.contains.0.but.not.all.calls.to.method.are.in.its.class", CommonRefactoringUtil.htmlEmphasize(PsiKeyword.SUPER))); break; } } } } } for (IntroduceParameterMethodUsagesProcessor processor : IntroduceParameterMethodUsagesProcessor.EP_NAME.getExtensions()) { processor.findConflicts(this, refUsages.get(), conflicts); } return showConflicts(conflicts, usagesIn); }
@Override protected void performRefactoring(UsageInfo[] usages) { GroovyPsiElementFactory factory = GroovyPsiElementFactory.getInstance(myProject); PsiType initializerType = mySettings.getSelectedType(); // Changing external occurrences (the tricky part) IntroduceParameterUtil.processUsages(usages, this); final GrMethod toReplaceIn = (GrMethod) mySettings.getToReplaceIn(); final PsiMethod toSearchFor = (PsiMethod) mySettings.getToSearchFor(); final boolean methodsToProcessAreDifferent = toReplaceIn != toSearchFor; if (mySettings.generateDelegate()) { GroovyIntroduceParameterUtil.generateDelegate(toReplaceIn, myParameterInitializer, myProject); if (methodsToProcessAreDifferent) { final GrMethod method = GroovyIntroduceParameterUtil.generateDelegate( toSearchFor, myParameterInitializer, myProject); final PsiClass containingClass = method.getContainingClass(); if (containingClass != null && containingClass.isInterface()) { final GrOpenBlock block = method.getBlock(); if (block != null) { block.delete(); } } } } // Changing signature of initial method // (signature of myMethodToReplaceIn will be either changed now or have already been changed) LOG.assertTrue(initializerType == null || initializerType.isValid()); final FieldConflictsResolver fieldConflictsResolver = new FieldConflictsResolver(mySettings.getName(), toReplaceIn.getBlock()); IntroduceParameterUtil.changeMethodSignatureAndResolveFieldConflicts( new UsageInfo(toReplaceIn), usages, this); if (methodsToProcessAreDifferent) { IntroduceParameterUtil.changeMethodSignatureAndResolveFieldConflicts( new UsageInfo(toSearchFor), usages, this); } // Replacing expression occurrences for (UsageInfo usage : usages) { if (usage instanceof ChangedMethodCallInfo) { PsiElement element = usage.getElement(); GroovyIntroduceParameterUtil.processChangedMethodCall(element, mySettings, myProject); } else if (usage instanceof InternalUsageInfo) { PsiElement element = usage.getElement(); if (element == null) continue; GrExpression newExpr = factory.createExpressionFromText(mySettings.getName()); if (element instanceof GrExpression) { ((GrExpression) element).replaceWithExpression(newExpr, true); } else { element.replace(newExpr); } } } final StringPartInfo stringPartInfo = mySettings.getStringPartInfo(); if (stringPartInfo != null) { final GrExpression expr = GrIntroduceHandlerBase.processLiteral( mySettings.getName(), mySettings.getStringPartInfo(), mySettings.getProject()); final Editor editor = PsiUtilBase.findEditor(expr); if (editor != null) { editor.getSelectionModel().removeSelection(); editor.getCaretModel().moveToOffset(expr.getTextRange().getEndOffset()); } } final GrVariable var = mySettings.getVar(); if (var != null && mySettings.removeLocalVariable()) { var.delete(); } fieldConflictsResolver.fix(); }