@Nullable
 private PsiElement resolveElement() {
   PsiElement element = getParent();
   while (element != null
       && (!(element instanceof PsiClass) || element instanceof PsiTypeParameter)) {
     if (element instanceof PsiMethod) {
       final PsiMethod method = (PsiMethod) element;
       final PsiTypeParameterList list = method.getTypeParameterList();
       if (list != null) {
         final PsiTypeParameter[] parameters = list.getTypeParameters();
         for (int i = 0; parameters != null && i < parameters.length; i++) {
           final PsiTypeParameter parameter = parameters[i];
           if (myQualifiedName.equals(parameter.getName())) return parameter;
         }
       }
     }
     element = element.getParent();
   }
   if (element == null) return null;
   for (PsiTypeParameter parameter :
       PsiUtil.typeParametersIterable((PsiTypeParameterListOwner) element)) {
     if (myQualifiedName.equals(parameter.getName())) return parameter;
   }
   return resolveClassPreferringMyJar();
 }
 public static boolean processDeclarationsInMethod(
     @NotNull final PsiMethod method,
     @NotNull final PsiScopeProcessor processor,
     @NotNull final ResolveState state,
     final PsiElement lastParent,
     @NotNull final PsiElement place) {
   final boolean fromBody = lastParent instanceof PsiCodeBlock;
   final PsiTypeParameterList typeParameterList = method.getTypeParameterList();
   return processDeclarationsInMethodLike(
       method, processor, state, place, fromBody, typeParameterList);
 }
  public static boolean processDeclarationsInMethod(
      @NotNull final PsiMethod method,
      @NotNull final PsiScopeProcessor processor,
      @NotNull final ResolveState state,
      final PsiElement lastParent,
      @NotNull final PsiElement place) {
    final ElementClassHint hint = processor.getHint(ElementClassHint.KEY);
    processor.handleEvent(PsiScopeProcessor.Event.SET_DECLARATION_HOLDER, method);
    if (hint == null || hint.shouldProcess(ElementClassHint.DeclarationKind.CLASS)) {
      final PsiTypeParameterList list = method.getTypeParameterList();
      if (list != null && !list.processDeclarations(processor, state, null, place)) return false;
    }
    if (lastParent instanceof PsiCodeBlock) {
      final PsiParameter[] parameters = method.getParameterList().getParameters();
      for (PsiParameter parameter : parameters) {
        if (!processor.execute(parameter, state)) return false;
      }
    }

    return true;
  }
 public static MultiMap<PsiElement, String> checkConflicts(
     final MemberInfoBase<? extends PsiMember>[] infos,
     @NotNull final PsiClass subclass,
     @Nullable PsiClass superClass,
     @NotNull final PsiPackage targetPackage,
     @NotNull PsiDirectory targetDirectory,
     final InterfaceContainmentVerifier interfaceContainmentVerifier,
     boolean movedMembers2Super) {
   final Set<PsiMember> movedMembers = new HashSet<PsiMember>();
   final Set<PsiMethod> abstractMethods = new HashSet<PsiMethod>();
   final boolean isInterfaceTarget;
   final PsiElement targetRepresentativeElement;
   if (superClass != null) {
     isInterfaceTarget = superClass.isInterface();
     targetRepresentativeElement = superClass;
   } else {
     isInterfaceTarget = false;
     targetRepresentativeElement = targetDirectory;
   }
   for (MemberInfoBase<? extends PsiMember> info : infos) {
     PsiMember member = info.getMember();
     if (member instanceof PsiMethod) {
       if (!info.isToAbstract() && !isInterfaceTarget) {
         movedMembers.add(member);
       } else {
         abstractMethods.add((PsiMethod) member);
       }
     } else {
       movedMembers.add(member);
     }
   }
   final MultiMap<PsiElement, String> conflicts = new MultiMap<PsiElement, String>();
   final Set<PsiMethod> abstrMethods = new HashSet<PsiMethod>(abstractMethods);
   if (superClass != null) {
     for (PsiMethod method : subclass.getMethods()) {
       if (!movedMembers.contains(method) && !method.hasModifierProperty(PsiModifier.PRIVATE)) {
         if (method.findSuperMethods(superClass).length > 0) {
           abstrMethods.add(method);
         }
       }
     }
   }
   RefactoringConflictsUtil.analyzeAccessibilityConflicts(
       movedMembers,
       superClass,
       conflicts,
       VisibilityUtil.ESCALATE_VISIBILITY,
       targetRepresentativeElement,
       abstrMethods);
   if (superClass != null) {
     if (movedMembers2Super) {
       checkSuperclassMembers(superClass, infos, conflicts);
       if (isInterfaceTarget) {
         checkInterfaceTarget(infos, conflicts);
       }
     } else {
       final String qualifiedName = superClass.getQualifiedName();
       assert qualifiedName != null;
       if (superClass.hasModifierProperty(PsiModifier.PACKAGE_LOCAL)) {
         if (!Comparing.strEqual(
             StringUtil.getPackageName(qualifiedName), targetPackage.getQualifiedName())) {
           conflicts.putValue(
               superClass,
               RefactoringUIUtil.getDescription(superClass, true)
                   + " won't be accessible from "
                   + RefactoringUIUtil.getDescription(targetPackage, true));
         }
       }
     }
   }
   // check if moved methods use other members in the classes between Subclass and Superclass
   List<PsiElement> checkModuleConflictsList = new ArrayList<PsiElement>();
   for (PsiMember member : movedMembers) {
     if (member instanceof PsiMethod
         || member instanceof PsiClass && !(member instanceof PsiCompiledElement)) {
       ClassMemberReferencesVisitor visitor =
           movedMembers2Super
               ? new ConflictingUsagesOfSubClassMembers(
                   member,
                   movedMembers,
                   abstractMethods,
                   subclass,
                   superClass,
                   superClass != null ? null : targetPackage,
                   conflicts,
                   interfaceContainmentVerifier)
               : new ConflictingUsagesOfSuperClassMembers(
                   member, subclass, targetPackage, movedMembers, conflicts);
       member.accept(visitor);
     }
     ContainerUtil.addIfNotNull(checkModuleConflictsList, member);
   }
   for (final PsiMethod method : abstractMethods) {
     ContainerUtil.addIfNotNull(checkModuleConflictsList, method.getParameterList());
     ContainerUtil.addIfNotNull(checkModuleConflictsList, method.getReturnTypeElement());
     ContainerUtil.addIfNotNull(checkModuleConflictsList, method.getTypeParameterList());
   }
   RefactoringConflictsUtil.analyzeModuleConflicts(
       subclass.getProject(),
       checkModuleConflictsList,
       new UsageInfo[0],
       targetRepresentativeElement,
       conflicts);
   final String fqName = subclass.getQualifiedName();
   final String packageName;
   if (fqName != null) {
     packageName = StringUtil.getPackageName(fqName);
   } else {
     final PsiFile psiFile = PsiTreeUtil.getParentOfType(subclass, PsiFile.class);
     if (psiFile instanceof PsiClassOwner) {
       packageName = ((PsiClassOwner) psiFile).getPackageName();
     } else {
       packageName = null;
     }
   }
   final boolean toDifferentPackage =
       !Comparing.strEqual(targetPackage.getQualifiedName(), packageName);
   for (final PsiMethod abstractMethod : abstractMethods) {
     abstractMethod.accept(
         new ClassMemberReferencesVisitor(subclass) {
           @Override
           protected void visitClassMemberReferenceElement(
               PsiMember classMember, PsiJavaCodeReferenceElement classMemberReference) {
             if (classMember != null && willBeMoved(classMember, movedMembers)) {
               boolean isAccessible = false;
               if (classMember.hasModifierProperty(PsiModifier.PRIVATE)) {
                 isAccessible = true;
               } else if (classMember.hasModifierProperty(PsiModifier.PACKAGE_LOCAL)
                   && toDifferentPackage) {
                 isAccessible = true;
               }
               if (isAccessible) {
                 String message =
                     RefactoringUIUtil.getDescription(abstractMethod, false)
                         + " uses "
                         + RefactoringUIUtil.getDescription(classMember, true)
                         + " which won't be accessible from the subclass.";
                 message = CommonRefactoringUtil.capitalize(message);
                 conflicts.putValue(classMember, message);
               }
             }
           }
         });
     if (abstractMethod.hasModifierProperty(PsiModifier.PACKAGE_LOCAL) && toDifferentPackage) {
       if (!isInterfaceTarget) {
         String message =
             "Can't make "
                 + RefactoringUIUtil.getDescription(abstractMethod, false)
                 + " abstract as it won't be accessible from the subclass.";
         message = CommonRefactoringUtil.capitalize(message);
         conflicts.putValue(abstractMethod, message);
       }
     }
   }
   return conflicts;
 }