public void visitLibraryClass(LibraryClass libraryClass) { if (shouldBeMarkedAsUsed(libraryClass)) { markAsUsed(libraryClass); // We're not going to analyze all library code. We're assuming that // if this class is being used, all of its methods will be used as // well. We'll mark them as such (here and in all subclasses). // Mark the superclass. Clazz superClass = libraryClass.superClass; if (superClass != null) { superClass.accept(this); } // Mark the interfaces. Clazz[] interfaceClasses = libraryClass.interfaceClasses; if (interfaceClasses != null) { for (int index = 0; index < interfaceClasses.length; index++) { if (interfaceClasses[index] != null) { interfaceClasses[index].accept(this); } } } // Mark all methods. libraryClass.methodsAccept(this); } }
/** * Marks the hierarchy of implementing or overriding methods corresponding to the given method, if * any. */ protected void markMethodHierarchy(Clazz clazz, Method method) { int accessFlags = method.getAccessFlags(); if ((accessFlags & (ClassConstants.ACC_PRIVATE | ClassConstants.ACC_STATIC)) == 0 && !ClassUtil.isInitializer(method.getName(clazz))) { // We can skip private and static methods in the hierarchy, and // also abstract methods, unless they might widen a current // non-public access. int requiredUnsetAccessFlags = ClassConstants.ACC_PRIVATE | ClassConstants.ACC_STATIC | ((accessFlags & ClassConstants.ACC_PUBLIC) == 0 ? 0 : ClassConstants.ACC_ABSTRACT); clazz.accept( new ConcreteClassDownTraveler( new ClassHierarchyTraveler( true, true, false, true, new NamedMethodVisitor( method.getName(clazz), method.getDescriptor(clazz), new MemberAccessFilter(0, requiredUnsetAccessFlags, this))))); } }
/** * Marks the hierarchy of implementing or overriding methods corresponding to the given method, if * any. */ protected void markMethodHierarchy(Clazz clazz, Method method) { int accessFlags = method.getAccessFlags(); if ((accessFlags & (ClassConstants.ACC_PRIVATE | ClassConstants.ACC_STATIC)) == 0 && !ClassUtil.isInitializer(method.getName(clazz))) { // We can skip private and static methods in the hierarchy, and // also abstract methods, unless they might widen a current // non-public access. int requiredUnsetAccessFlags = ClassConstants.ACC_PRIVATE | ClassConstants.ACC_STATIC | ((accessFlags & ClassConstants.ACC_PUBLIC) == 0 ? 0 : ClassConstants.ACC_ABSTRACT); // Mark default implementations in interfaces down the hierarchy. // TODO: This may be premature if there aren't any concrete implementing classes. clazz.accept( new ClassAccessFilter( ClassConstants.ACC_ABSTRACT, 0, new ClassHierarchyTraveler( false, false, false, true, new ProgramClassFilter( new ClassAccessFilter( ClassConstants.ACC_ABSTRACT, 0, new NamedMethodVisitor( method.getName(clazz), method.getDescriptor(clazz), new MemberAccessFilter( 0, requiredUnsetAccessFlags, defaultMethodUsageMarker))))))); // Mark other implementations. clazz.accept( new ConcreteClassDownTraveler( new ClassHierarchyTraveler( true, true, false, true, new NamedMethodVisitor( method.getName(clazz), method.getDescriptor(clazz), new MemberAccessFilter(0, requiredUnsetAccessFlags, this))))); } }