private static boolean allDecoratorsAreKnown(
     @NotNull PyDecoratable element, @NotNull List<KnownDecorator> decorators) {
   final PyDecoratorList decoratorList = element.getDecoratorList();
   return decoratorList == null
       ? decorators.isEmpty()
       : decoratorList.getDecorators().length == decorators.size();
 }
  /**
   * Map decorators of element to {@link
   * com.jetbrains.python.psi.PyKnownDecoratorUtil.KnownDecorator}.
   *
   * @param element decoratable element to check
   * @param context type evaluation context. If it doesn't allow switch to AST, decorators will be
   *     compared by the text of the last component of theirs qualified names.
   * @return list of known decorators in declaration order with duplicates (with any)
   */
  @NotNull
  public static List<KnownDecorator> getKnownDecorators(
      @NotNull PyDecoratable element, @NotNull TypeEvalContext context) {
    final PyDecoratorList decoratorList = element.getDecoratorList();
    if (decoratorList == null) {
      return Collections.emptyList();
    }
    final List<KnownDecorator> result = new ArrayList<>();
    final boolean allowResolve = context.maySwitchToAST((PsiElement) element);
    for (PyDecorator decorator : decoratorList.getDecorators()) {
      final QualifiedName qualifiedName = decorator.getQualifiedName();
      if (qualifiedName == null) {
        continue;
      }

      final KnownDecorator knownDecorator = ourByShortName.get(qualifiedName.getLastComponent());
      if (knownDecorator != null) {
        if (allowResolve) {
          PyQualifiedNameOwner resolved =
              as(resolveDecorator(decorator), PyQualifiedNameOwner.class);
          if (resolved instanceof PyFunction && PyNames.INIT.equals(resolved.getName())) {
            resolved = ((PyFunction) resolved).getContainingClass();
          }
          if (resolved != null && resolved.getQualifiedName() != null) {
            final QualifiedName resolvedName =
                QualifiedName.fromDottedString(resolved.getQualifiedName());
            if (resolvedName.equals(knownDecorator.getQualifiedName())) {
              result.add(knownDecorator);
            }
          }
        } else {
          result.add(knownDecorator);
        }
      }
    }
    return result;
  }
 /**
  * When a function is decorated many decorators, finds the deepest builtin decorator:
  *
  * <pre>
  * &#x40;foo
  * &#x40;classmethod <b># &lt;-- that's it</b>
  * &#x40;bar
  * def moo(cls):
  * &nbsp;&nbsp;pass
  * </pre>
  *
  * @return name of the built-in decorator, or null (even if there are non-built-in decorators).
  */
 @Nullable
 private String getClassOrStaticMethodDecorator() {
   PyDecoratorList decolist = getDecoratorList();
   if (decolist != null) {
     PyDecorator[] decos = decolist.getDecorators();
     if (decos.length > 0) {
       for (int i = decos.length - 1; i >= 0; i -= 1) {
         PyDecorator deco = decos[i];
         String deconame = deco.getName();
         if (PyNames.CLASSMETHOD.equals(deconame) || PyNames.STATICMETHOD.equals(deconame)) {
           return deconame;
         }
         for (PyKnownDecoratorProvider provider :
             PyUtil.KnownDecoratorProviderHolder.KNOWN_DECORATOR_PROVIDERS) {
           String name = provider.toKnownDecorator(deconame);
           if (name != null) {
             return name;
           }
         }
       }
     }
   }
   return null;
 }
 @Nullable
 public static PyType getTypeFromTarget(
     @NotNull final PsiElement target,
     final TypeEvalContext context,
     PyReferenceExpression anchor) {
   if (!(target
       instanceof PyTargetExpression)) { // PyTargetExpression will ask about its type itself
     final PyType pyType = getReferenceTypeFromProviders(target, context, anchor);
     if (pyType != null) {
       return pyType;
     }
   }
   if (target instanceof PyTargetExpression) {
     final String name = ((PyTargetExpression) target).getName();
     if (PyNames.NONE.equals(name)) {
       return PyNoneType.INSTANCE;
     }
     if (PyNames.TRUE.equals(name) || PyNames.FALSE.equals(name)) {
       return PyBuiltinCache.getInstance(target).getBoolType();
     }
   }
   if (target instanceof PyFile) {
     return new PyModuleType((PyFile) target);
   }
   if (target instanceof PyImportedModule) {
     return new PyImportedModuleType((PyImportedModule) target);
   }
   if ((target instanceof PyTargetExpression || target instanceof PyNamedParameter)
       && anchor != null
       && context.allowDataFlow(anchor)) {
     final ScopeOwner scopeOwner = PsiTreeUtil.getStubOrPsiParentOfType(anchor, ScopeOwner.class);
     if (scopeOwner != null
         && scopeOwner == PsiTreeUtil.getStubOrPsiParentOfType(target, ScopeOwner.class)) {
       final String name = ((PyElement) target).getName();
       if (name != null) {
         final PyType type = getTypeByControlFlow(name, context, anchor, scopeOwner);
         if (type != null) {
           return type;
         }
       }
     }
   }
   if (target instanceof PyFunction) {
     final PyDecoratorList decoratorList = ((PyFunction) target).getDecoratorList();
     if (decoratorList != null) {
       final PyDecorator propertyDecorator = decoratorList.findDecorator(PyNames.PROPERTY);
       if (propertyDecorator != null) {
         return PyBuiltinCache.getInstance(target).getObjectType(PyNames.PROPERTY);
       }
       for (PyDecorator decorator : decoratorList.getDecorators()) {
         final QualifiedName qName = decorator.getQualifiedName();
         if (qName != null
             && (qName.endsWith(PyNames.SETTER)
                 || qName.endsWith(PyNames.DELETER)
                 || qName.endsWith(PyNames.GETTER))) {
           return PyBuiltinCache.getInstance(target).getObjectType(PyNames.PROPERTY);
         }
       }
     }
   }
   if (target instanceof PyTypedElement) {
     return context.getType((PyTypedElement) target);
   }
   if (target instanceof PsiDirectory) {
     final PsiDirectory dir = (PsiDirectory) target;
     PsiFile file = dir.findFile(PyNames.INIT_DOT_PY);
     if (file != null) {
       return getTypeFromTarget(file, context, anchor);
     }
     if (PyUtil.isPackage(dir, anchor)) {
       final PsiFile containingFile = anchor.getContainingFile();
       if (containingFile instanceof PyFile) {
         final QualifiedName qualifiedName = QualifiedNameFinder.findShortestImportableQName(dir);
         if (qualifiedName != null) {
           final PyImportedModule module =
               new PyImportedModule(null, (PyFile) containingFile, qualifiedName);
           return new PyImportedModuleType(module);
         }
       }
     }
   }
   return null;
 }