private boolean isAccessible( RefJavaElement to, @PsiModifier.ModifierConstant String accessModifier) { for (RefElement refElement : to.getInReferences()) { if (!isAccessibleFrom(refElement, to, accessModifier)) return false; } if (to instanceof RefMethod) { RefMethod refMethod = (RefMethod) to; if (refMethod.isAbstract() && (refMethod.getDerivedMethods().isEmpty() || refMethod.getAccessModifier() == PsiModifier.PRIVATE)) return false; for (RefMethod refOverride : refMethod.getDerivedMethods()) { if (!isAccessibleFrom(refOverride, to, accessModifier)) return false; } for (RefMethod refSuper : refMethod.getSuperMethods()) { if (RefJavaUtil.getInstance().compareAccess(refSuper.getAccessModifier(), accessModifier) > 0) return false; } } if (to instanceof RefClass) { RefClass refClass = (RefClass) to; for (RefClass subClass : refClass.getSubClasses()) { if (!isAccessibleFrom(subClass, to, accessModifier)) return false; } List children = refClass.getChildren(); if (children != null) { for (Object refElement : children) { if (!isAccessible((RefJavaElement) refElement, accessModifier)) return false; } } for (final RefElement refElement : refClass.getInTypeReferences()) { if (!isAccessibleFrom(refElement, refClass, accessModifier)) return false; } List<RefJavaElement> classExporters = ((RefClassImpl) refClass).getClassExporters(); if (classExporters != null) { for (RefJavaElement refExporter : classExporters) { if (getAccessLevel(accessModifier) < getAccessLevel(refExporter.getAccessModifier())) return false; } } } return true; }
@Override @Nullable public CommonProblemDescriptor[] checkElement( @NotNull final RefEntity refEntity, @NotNull final AnalysisScope scope, @NotNull final InspectionManager manager, @NotNull final GlobalInspectionContext globalContext, @NotNull final ProblemDescriptionsProcessor processor) { if (refEntity instanceof RefJavaElement) { final RefJavaElement refElement = (RefJavaElement) refEntity; if (refElement instanceof RefParameter) return null; if (refElement.isSyntheticJSP()) return null; // ignore entry points. if (refElement.isEntry()) return null; // ignore implicit constructors. User should not be able to see them. if (refElement instanceof RefImplicitConstructor) return null; if (refElement instanceof RefField && ((RefField) refElement).getElement() instanceof PsiEnumConstant) return null; // ignore library override methods. if (refElement instanceof RefMethod) { RefMethod refMethod = (RefMethod) refElement; if (refMethod.isExternalOverride()) return null; if (refMethod.isEntry()) return null; } // ignore anonymous classes. They do not have access modifiers. if (refElement instanceof RefClass) { RefClass refClass = (RefClass) refElement; if (refClass.isAnonymous() || refClass.isEntry() || refClass.isTestCase() || refClass.isServlet() || refClass.isApplet() || refClass.isLocalClass()) return null; if (isTopLevelClass(refClass) && !SUGGEST_PACKAGE_LOCAL_FOR_TOP_CLASSES) return null; } // ignore unreferenced code. They could be a potential entry points. if (refElement.getInReferences().isEmpty()) return null; // ignore interface members. They always have public access modifier. if (refElement.getOwner() instanceof RefClass) { RefClass refClass = (RefClass) refElement.getOwner(); if (refClass.isInterface()) return null; } String access = getPossibleAccess(refElement); if (access != refElement.getAccessModifier() && access != null) { final PsiElement element = refElement.getElement(); final PsiElement nameIdentifier = element != null ? HighlightUsagesHandler.getNameIdentifier(element) : null; if (nameIdentifier != null) { return new ProblemDescriptor[] { manager.createProblemDescriptor( nameIdentifier, access.equals(PsiModifier.PRIVATE) ? CAN_BE_PRIVATE : access.equals(PsiModifier.PACKAGE_LOCAL) ? CAN_BE_PACKAGE_LOCAL : CAN_BE_PROTECTED, new AcceptSuggestedAccess(globalContext.getRefManager(), access), ProblemHighlightType.GENERIC_ERROR_OR_WARNING, false) }; } } } return null; }