private static PsiSubstitutor obtainFinalSubstitutor(
      PsiClass superClass,
      PsiSubstitutor superSubstitutor,
      PsiSubstitutor derivedSubstitutor,
      boolean inRawContext) {
    if (inRawContext) {
      Set<PsiTypeParameter> typeParams = superSubstitutor.getSubstitutionMap().keySet();
      PsiElementFactory factory = JavaPsiFacade.getElementFactory(superClass.getProject());
      superSubstitutor =
          factory.createRawSubstitutor(
              derivedSubstitutor, typeParams.toArray(new PsiTypeParameter[typeParams.size()]));
    }
    Map<PsiTypeParameter, PsiType> map = null;
    for (PsiTypeParameter typeParameter : PsiUtil.typeParametersIterable(superClass)) {
      PsiType type = superSubstitutor.substitute(typeParameter);
      final PsiType t = derivedSubstitutor.substitute(type);
      if (map == null) {
        map = new THashMap<PsiTypeParameter, PsiType>();
      }
      map.put(typeParameter, t);
    }

    return map == null
        ? PsiSubstitutor.EMPTY
        : JavaPsiFacade.getInstance(superClass.getProject())
            .getElementFactory()
            .createSubstitutor(map);
  }
Esempio n. 2
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  /**
   * @return true, if the element contains a reference to a different class than fullyQualifiedName
   *     but which has the same class name
   */
  public static boolean containsConflictingReference(PsiFile element, String fullyQualifiedName) {
    final Map<String, Boolean> cachedValue =
        CachedValuesManager.getManager(element.getProject())
            .getCachedValue(
                element,
                new CachedValueProvider<Map<String, Boolean>>() {
                  @Nullable
                  @Override
                  public Result<Map<String, Boolean>> compute() {
                    return new Result<Map<String, Boolean>>(
                        Collections.synchronizedMap(new HashMap<String, Boolean>()),
                        PsiModificationTracker.MODIFICATION_COUNT);
                  }
                });
    Boolean conflictingRef = cachedValue.get(fullyQualifiedName);
    if (conflictingRef != null) {
      return conflictingRef.booleanValue();
    }

    final ConflictingClassReferenceVisitor visitor =
        new ConflictingClassReferenceVisitor(fullyQualifiedName);
    element.accept(visitor);
    conflictingRef = visitor.isConflictingReferenceFound();
    cachedValue.put(fullyQualifiedName, conflictingRef);

    return conflictingRef.booleanValue();
  }
 private static void putInMap(
     PsiClass aClass,
     Map<MethodSignature, HierarchicalMethodSignature> result,
     Map<MethodSignature, HierarchicalMethodSignatureImpl> map,
     HierarchicalMethodSignature hierarchicalMethodSignature,
     MethodSignature signature) {
   if (!PsiUtil.isAccessible(
       aClass.getProject(), hierarchicalMethodSignature.getMethod(), aClass, aClass)) return;
   HierarchicalMethodSignatureImpl existing = map.get(signature);
   if (existing == null) {
     HierarchicalMethodSignatureImpl copy = copy(hierarchicalMethodSignature);
     LOG.assertTrue(copy.getMethod().isValid());
     map.put(signature, copy);
   } else if (isReturnTypeIsMoreSpecificThan(hierarchicalMethodSignature, existing)
       && isSuperMethod(aClass, hierarchicalMethodSignature, existing)) {
     HierarchicalMethodSignatureImpl newSuper = copy(hierarchicalMethodSignature);
     mergeSupers(newSuper, existing);
     LOG.assertTrue(newSuper.getMethod().isValid());
     map.put(signature, newSuper);
   } else if (isSuperMethod(aClass, existing, hierarchicalMethodSignature)) {
     mergeSupers(existing, hierarchicalMethodSignature);
   }
   // just drop an invalid method declaration there - to highlight accordingly
   else if (!result.containsKey(signature)) {
     LOG.assertTrue(hierarchicalMethodSignature.getMethod().isValid());
     result.put(signature, hierarchicalMethodSignature);
   }
 }
  private static void fillFromSchema(PsiFile file, ElementNames names) {
    if (!(file instanceof XmlFile)) return;
    final XmlFile f = (XmlFile) file;
    final XmlDocument d = f.getDocument();
    if (d == null) return;
    final XmlTag rootTag = d.getRootTag();
    if (rootTag == null) return;

    //noinspection unchecked
    names.dependencies.add(new NSDeclTracker(rootTag));

    try {
      final Map<String, String> namespaceDeclarations = rootTag.getLocalNamespaceDeclarations();
      final Collection<String> prefixes = namespaceDeclarations.keySet();

      //noinspection unchecked
      final Set<XmlElementDescriptor> history = new THashSet<XmlElementDescriptor>();

      final XmlElementFactory ef = XmlElementFactory.getInstance(file.getProject());
      int noSchemaNamespaces = 0;
      for (String prefix : prefixes) {
        final String namespace = namespaceDeclarations.get(prefix);
        if (isIgnoredNamespace(prefix, namespace)) continue;

        final XmlTag tag =
            ef.createTagFromText("<dummy-tag xmlns='" + namespace + "' />", XMLLanguage.INSTANCE);
        final XmlDocument document = PsiTreeUtil.getParentOfType(tag, XmlDocument.class);
        final XmlNSDescriptor rootDescriptor = tag.getNSDescriptor(tag.getNamespace(), true);
        if (rootDescriptor == null
            || (rootDescriptor instanceof XmlNSDescriptorImpl
                && ((XmlNSDescriptorImpl) rootDescriptor).getTag() == null)
            || !rootDescriptor.getDeclaration().isPhysical()) {
          final QName any = QNameUtil.createAnyLocalName(namespace);
          names.elementNames.add(any);
          names.attributeNames.add(any);
          noSchemaNamespaces++;
          continue;
        }

        //noinspection unchecked
        names.dependencies.add(rootDescriptor.getDescriptorFile());

        final XmlElementDescriptor[] e = rootDescriptor.getRootElementsDescriptors(document);
        for (XmlElementDescriptor descriptor : e) {
          processElementDescriptors(descriptor, tag, names, history);
        }
      }

      names.validateNames = names.elementNames.size() > noSchemaNamespaces;

      //            final QName any = QNameUtil.createAnyLocalName("");
      //            names.elementNames.add(any);
      //            names.attributeNames.add(any);
    } catch (IncorrectOperationException e) {
      Logger.getInstance(XsltContextProvider.class.getName()).error(e);
    }
  }
  private static CompoundInitialState createState(InferenceSession topLevelSession) {
    final PsiSubstitutor topInferenceSubstitutor =
        replaceVariables(topLevelSession.getInferenceVariables());
    final Map<PsiElement, InitialInferenceState> nestedStates =
        new LinkedHashMap<PsiElement, InitialInferenceState>();

    final InferenceSessionContainer copy =
        new InferenceSessionContainer() {
          @Override
          public PsiSubstitutor findNestedSubstitutor(
              PsiElement arg, @Nullable PsiSubstitutor defaultSession) {
            // for the case foo(bar(a -> m())): top level inference won't touch lambda "a -> m()"
            // for the case foo(a -> bar(b -> m())): top level inference would go till nested lambda
            // "b -> m()" and the state from top level could be found here by "bar(b -> m())"
            // but proceeding with additional constraints from saved point would produce new
            // expression constraints with different inference variables (could be found in
            // myNestedSessions)
            // which won't be found in the system if we won't reject stored sessions in such cases
            final PsiSubstitutor substitutor = super.findNestedSubstitutor(arg, null);
            if (substitutor != null) {
              return substitutor;
            }

            final InitialInferenceState state =
                nestedStates.get(PsiTreeUtil.getParentOfType(arg, PsiCall.class));
            if (state != null) {
              return state.getInferenceSubstitutor();
            }
            return super.findNestedSubstitutor(arg, defaultSession);
          }
        };
    final Map<PsiElement, InferenceSession> nestedSessions =
        topLevelSession.getInferenceSessionContainer().myNestedSessions;
    for (Map.Entry<PsiElement, InferenceSession> entry : nestedSessions.entrySet()) {
      nestedStates.put(
          entry.getKey(),
          entry
              .getValue()
              .createInitialState(
                  copy, topLevelSession.getInferenceVariables(), topInferenceSubstitutor));
    }

    PsiSubstitutor substitutor = PsiSubstitutor.EMPTY;
    for (InferenceVariable variable : topLevelSession.getInferenceVariables()) {
      final PsiType instantiation = variable.getInstantiation();
      if (instantiation != PsiType.NULL) {
        final PsiClass psiClass =
            PsiUtil.resolveClassInClassTypeOnly(topInferenceSubstitutor.substitute(variable));
        if (psiClass instanceof InferenceVariable) {
          substitutor = substitutor.put((PsiTypeParameter) psiClass, instantiation);
        }
      }
    }

    return new CompoundInitialState(substitutor, nestedStates);
  }
 public static PsiField[] getAllFields(GrTypeDefinition grType) {
   Map<String, CandidateInfo> fieldsMap = CollectClassMembersUtil.getAllFields(grType);
   return ContainerUtil.map2Array(
       fieldsMap.values(),
       PsiField.class,
       new Function<CandidateInfo, PsiField>() {
         public PsiField fun(CandidateInfo entry) {
           return (PsiField) entry.getElement();
         }
       });
 }
Esempio n. 7
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 @NotNull
 public Map<String, String> getLocalNamespaceDeclarations() {
   Map<String, String> namespaces = new THashMap<String, String>();
   for (final XmlAttribute attribute : getAttributes()) {
     if (!attribute.isNamespaceDeclaration() || attribute.getValue() == null) continue;
     // xmlns -> "", xmlns:a -> a
     final String localName = attribute.getLocalName();
     namespaces.put(localName.equals(attribute.getName()) ? "" : localName, attribute.getValue());
   }
   return namespaces;
 }
Esempio n. 8
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  public String getAttributeValue(String qname) { // todo ?
    Map<String, String> map = myAttributeValueMap;
    while (map == null) {
      getAttributes();
      map = myAttributeValueMap;

      if (map == null) {
        myAttributes = null;
      }
    }
    return map.get(qname);
  }
 private static boolean processAnnotationAttributes(
     @Nullable Map<String, Object> annotationAttributeValues, @NotNull PsiAnnotation annotation) {
   if (annotationAttributeValues != null) {
     final PsiAnnotationParameterList parameterList = annotation.getParameterList();
     final PsiNameValuePair[] attributes = parameterList.getAttributes();
     for (PsiNameValuePair attribute : attributes) {
       final String name = attribute.getName();
       if (annotationAttributeValues.containsKey(name)) {
         annotationAttributeValues.put(name, attribute.getValue());
       }
     }
   }
   return true;
 }
 @Nullable
 public static PsiClass findInnerClassByName(
     GrTypeDefinition grType, String name, boolean checkBases) {
   if (!checkBases) {
     for (PsiClass inner : grType.getInnerClasses()) {
       if (name.equals(inner.getName())) return inner;
     }
     return null;
   } else {
     Map<String, CandidateInfo> innerClasses =
         CollectClassMembersUtil.getAllInnerClasses(grType, true);
     final CandidateInfo info = innerClasses.get(name);
     return info == null ? null : (PsiClass) info.getElement();
   }
 }
  // uses hierarchy signature tree if available, traverses class structure by itself otherwise
  public static boolean processDirectSuperMethodsSmart(
      @NotNull PsiMethod method, @NotNull Processor<PsiMethod> superMethodProcessor) {
    // boolean old = PsiSuperMethodUtil.isSuperMethod(method, superMethod);

    PsiClass aClass = method.getContainingClass();
    if (aClass == null) return false;

    if (!canHaveSuperMethod(method, true, false)) return false;

    Map<MethodSignature, HierarchicalMethodSignature> cachedMap =
        SIGNATURES_KEY.getCachedValueOrNull(aClass);
    if (cachedMap != null) {
      HierarchicalMethodSignature signature =
          cachedMap.get(method.getSignature(PsiSubstitutor.EMPTY));
      if (signature != null) {
        List<HierarchicalMethodSignature> superSignatures = signature.getSuperSignatures();
        for (HierarchicalMethodSignature superSignature : superSignatures) {
          if (!superMethodProcessor.process(superSignature.getMethod())) return false;
        }
        return true;
      }
    }

    PsiClassType[] directSupers = aClass.getSuperTypes();
    for (PsiClassType directSuper : directSupers) {
      PsiClassType.ClassResolveResult resolveResult = directSuper.resolveGenerics();
      if (resolveResult.getSubstitutor() != PsiSubstitutor.EMPTY) {
        // generics
        break;
      }
      PsiClass directSuperClass = resolveResult.getElement();
      if (directSuperClass == null) continue;
      PsiMethod[] candidates = directSuperClass.findMethodsBySignature(method, false);
      for (PsiMethod candidate : candidates) {
        if (PsiUtil.canBeOverriden(candidate)) {
          if (!superMethodProcessor.process(candidate)) return false;
        }
      }
      return true;
    }

    List<HierarchicalMethodSignature> superSignatures =
        method.getHierarchicalMethodSignature().getSuperSignatures();
    for (HierarchicalMethodSignature superSignature : superSignatures) {
      if (!superMethodProcessor.process(superSignature.getMethod())) return false;
    }
    return true;
  }
 @Contract("_, !null -> !null")
 public PsiSubstitutor findNestedSubstitutor(
     PsiElement arg, @Nullable PsiSubstitutor defaultSession) {
   InferenceSession session =
       myNestedSessions.get(PsiTreeUtil.getParentOfType(arg, PsiCall.class));
   return session == null ? defaultSession : session.getInferenceSubstitution();
 }
  @Nullable
  public static PsiField findFieldByName(
      GrTypeDefinition grType, String name, boolean checkBases, boolean includeSynthetic) {
    if (!checkBases) {
      for (PsiField field : CollectClassMembersUtil.getFields(grType, includeSynthetic)) {
        if (name.equals(field.getName())) return field;
      }

      return null;
    }

    Map<String, CandidateInfo> fieldsMap =
        CollectClassMembersUtil.getAllFields(grType, includeSynthetic);
    final CandidateInfo info = fieldsMap.get(name);
    return info == null ? null : (PsiField) info.getElement();
  }
 private static PsiExpression getLiteralExpression(
     PsiExpression context, PsiManager manager, @NotNull String text) {
   Map<String, PsiExpression> cache = LITERAL_EXPRESSION_CACHE.get(manager);
   if (cache == null) {
     cache = new ConcurrentSoftValueHashMap<String, PsiExpression>();
     cache = manager.putUserDataIfAbsent(LITERAL_EXPRESSION_CACHE, cache);
   }
   PsiExpression expression = cache.get(text);
   if (expression == null) {
     expression =
         JavaPsiFacade.getElementFactory(manager.getProject())
             .createExpressionFromText(text, context);
     cache.put(text, expression);
   }
   return expression;
 }
  public FileIncludeManagerImpl(
      Project project,
      PsiManager psiManager,
      PsiFileFactory psiFileFactory,
      CachedValuesManager cachedValuesManager) {
    myProject = project;
    myPsiManager = psiManager;
    myPsiFileFactory = psiFileFactory;

    FileIncludeProvider[] providers = Extensions.getExtensions(FileIncludeProvider.EP_NAME);
    Map<String, FileIncludeProvider> providerMap =
        new HashMap<String, FileIncludeProvider>(providers.length);
    for (FileIncludeProvider provider : providers) {
      FileIncludeProvider old = providerMap.put(provider.getId(), provider);
      assert old == null;
    }
    myCachedValuesManager = cachedValuesManager;
  }
Esempio n. 16
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 private PsiClass[] getCachedClassInDumbMode(String name) {
   Map<String, PsiClass[]> map = SoftReference.dereference(myClassCache);
   if (map == null) {
     map = new HashMap<String, PsiClass[]>();
     for (PsiClass psiClass : getClasses(new EverythingGlobalScope(getProject()))) {
       String psiClassName = psiClass.getName();
       if (psiClassName != null) {
         PsiClass[] existing = map.get(psiClassName);
         map.put(
             psiClassName,
             existing == null ? new PsiClass[] {psiClass} : ArrayUtil.append(existing, psiClass));
       }
     }
     myClassCache = new SoftReference<Map<String, PsiClass[]>>(map);
   }
   PsiClass[] classes = map.get(name);
   return classes == null ? PsiClass.EMPTY_ARRAY : classes;
 }
Esempio n. 17
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 private void processInterface(PsiClass inheritor, PsiClass anInterface) {
   for (Iterator<PsiMethod> methodIterator = myRemainingMethods.iterator();
       methodIterator.hasNext(); ) {
     PsiMethod method = methodIterator.next();
     SiblingInfo info = findSibling(inheritor, anInterface, method);
     if (info != null) {
       myResult.put(method, info);
       methodIterator.remove();
     }
   }
 }
Esempio n. 18
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  @NotNull
  public static Map<PsiMethod, SiblingInfo> getSiblingInheritanceInfos(
      @NotNull final Collection<PsiMethod> methods) {
    MultiMap<PsiClass, PsiMethod> byClass = MultiMap.create();
    for (PsiMethod method : methods) {
      PsiClass containingClass = method.getContainingClass();
      if (canHaveSiblingSuper(method, containingClass)) {
        byClass.putValue(containingClass, method);
      }
    }

    Map<PsiMethod, SiblingInfo> result = new HashMap<>();
    for (PsiClass psiClass : byClass.keySet()) {
      SiblingInheritorSearcher searcher =
          new SiblingInheritorSearcher(byClass.get(psiClass), psiClass);
      ClassInheritorsSearch.search(psiClass, psiClass.getUseScope(), true, true, false)
          .forEach(searcher);
      result.putAll(searcher.getResult());
    }
    return result;
  }
 @Override
 public PsiFileSystemItem resolveFileInclude(final FileIncludeInfo info, final PsiFile context) {
   if (true) return doResolve(info, context);
   Map<String, PsiFileSystemItem> value =
       myCachedValuesManager.getCachedValue(
           context,
           RESOLVE_CACHE_KEY,
           new CachedValueProvider<Map<String, PsiFileSystemItem>>() {
             @Override
             public Result<Map<String, PsiFileSystemItem>> compute() {
               Map<String, PsiFileSystemItem> map =
                   new FactoryMap<String, PsiFileSystemItem>() {
                     @Override
                     protected PsiFileSystemItem create(String key) {
                       return doResolve(info, context);
                     }
                   };
               return Result.create(map, context, VirtualFileManager.getInstance());
             }
           },
           false);
   return value.get(info.path);
 }
Esempio n. 20
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  @NotNull
  private PsiClass[] getCachedClassesByName(@NotNull String name) {
    if (DumbService.getInstance(getProject()).isDumb()) {
      return getCachedClassInDumbMode(name);
    }

    Map<String, PsiClass[]> map = SoftReference.dereference(myClassCache);
    if (map == null) {
      myClassCache =
          new SoftReference<Map<String, PsiClass[]>>(
              map = new ConcurrentSoftValueHashMap<String, PsiClass[]>());
    }
    PsiClass[] classes = map.get(name);
    if (classes != null) {
      return classes;
    }

    final String qName = getQualifiedName();
    final String classQName = !qName.isEmpty() ? qName + "." + name : name;
    map.put(
        name,
        classes = getFacade().findClasses(classQName, new EverythingGlobalScope(getProject())));
    return classes;
  }
 @Nullable
 private PyType analyzeCallType(
     @Nullable PyType type,
     @Nullable PyExpression receiver,
     @NotNull Map<PyExpression, PyNamedParameter> parameters,
     @NotNull TypeEvalContext context) {
   if (PyTypeChecker.hasGenerics(type, context)) {
     final Map<PyGenericType, PyType> substitutions =
         PyTypeChecker.unifyGenericCall(receiver, parameters, context);
     if (substitutions != null) {
       type = PyTypeChecker.substitute(type, substitutions, context);
     } else {
       type = null;
     }
   }
   if (receiver != null) {
     type = replaceSelf(type, receiver, context);
   }
   if (type != null && isDynamicallyEvaluated(parameters.values(), context)) {
     type = PyUnionType.createWeakType(type);
   }
   return type;
 }
Esempio n. 22
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 protected void cacheOneAttributeValue(
     String name, String value, final Map<String, String> attributesValueMap) {
   attributesValueMap.put(name, value);
 }
  private static Map<MethodSignature, HierarchicalMethodSignature> buildMethodHierarchy(
      PsiClass aClass,
      PsiSubstitutor substitutor,
      final boolean includePrivates,
      final Set<PsiClass> visited,
      boolean isInRawContext) {
    Map<MethodSignature, HierarchicalMethodSignature> result =
        new LinkedHashMap<MethodSignature, HierarchicalMethodSignature>();
    final Map<MethodSignature, List<PsiMethod>> sameParameterErasureMethods =
        new THashMap<MethodSignature, List<PsiMethod>>(
            MethodSignatureUtil.METHOD_PARAMETERS_ERASURE_EQUALITY);

    Map<MethodSignature, HierarchicalMethodSignatureImpl> map =
        new THashMap<MethodSignature, HierarchicalMethodSignatureImpl>(
            new TObjectHashingStrategy<MethodSignature>() {
              @Override
              public int computeHashCode(MethodSignature signature) {
                return MethodSignatureUtil.METHOD_PARAMETERS_ERASURE_EQUALITY.computeHashCode(
                    signature);
              }

              @Override
              public boolean equals(MethodSignature o1, MethodSignature o2) {
                if (!MethodSignatureUtil.METHOD_PARAMETERS_ERASURE_EQUALITY.equals(o1, o2))
                  return false;
                List<PsiMethod> list = sameParameterErasureMethods.get(o1);
                boolean toCheckReturnType = list != null && list.size() > 1;
                if (!toCheckReturnType) return true;
                PsiType returnType1 =
                    ((MethodSignatureBackedByPsiMethod) o1).getMethod().getReturnType();
                PsiType returnType2 =
                    ((MethodSignatureBackedByPsiMethod) o2).getMethod().getReturnType();
                if (returnType1 == null && returnType2 == null) return true;
                if (returnType1 == null || returnType2 == null) return false;

                PsiType erasure1 =
                    TypeConversionUtil.erasure(o1.getSubstitutor().substitute(returnType1));
                PsiType erasure2 =
                    TypeConversionUtil.erasure(o2.getSubstitutor().substitute(returnType2));
                return erasure1.equals(erasure2);
              }
            });

    for (PsiMethod method : aClass.getMethods()) {
      if (!method.isValid()) {
        throw new PsiInvalidElementAccessException(
            method, "class.valid=" + aClass.isValid() + "; name=" + method.getName());
      }
      if (!includePrivates && method.hasModifierProperty(PsiModifier.PRIVATE)) continue;
      final MethodSignatureBackedByPsiMethod signature =
          MethodSignatureBackedByPsiMethod.create(method, substitutor, isInRawContext);
      HierarchicalMethodSignatureImpl newH = new HierarchicalMethodSignatureImpl(signature);

      List<PsiMethod> list = sameParameterErasureMethods.get(signature);
      if (list == null) {
        list = new SmartList<PsiMethod>();
        sameParameterErasureMethods.put(signature, list);
      }
      list.add(method);

      LOG.assertTrue(newH.getMethod().isValid());
      result.put(signature, newH);
      map.put(signature, newH);
    }

    for (PsiClassType superType : aClass.getSuperTypes()) {
      PsiClassType.ClassResolveResult superTypeResolveResult = superType.resolveGenerics();
      PsiClass superClass = superTypeResolveResult.getElement();
      if (superClass == null) continue;
      if (!visited.add(superClass)) continue; // cyclic inheritance
      final PsiSubstitutor superSubstitutor = superTypeResolveResult.getSubstitutor();
      PsiSubstitutor finalSubstitutor =
          obtainFinalSubstitutor(superClass, superSubstitutor, substitutor, isInRawContext);

      final boolean isInRawContextSuper =
          (isInRawContext || PsiUtil.isRawSubstitutor(superClass, superSubstitutor))
              && superClass.getTypeParameters().length != 0;
      Map<MethodSignature, HierarchicalMethodSignature> superResult =
          buildMethodHierarchy(superClass, finalSubstitutor, false, visited, isInRawContextSuper);
      visited.remove(superClass);

      List<Pair<MethodSignature, HierarchicalMethodSignature>> flattened =
          new ArrayList<Pair<MethodSignature, HierarchicalMethodSignature>>();
      for (Map.Entry<MethodSignature, HierarchicalMethodSignature> entry : superResult.entrySet()) {
        HierarchicalMethodSignature hms = entry.getValue();
        MethodSignature signature = entry.getKey();
        PsiClass containingClass = hms.getMethod().getContainingClass();
        List<HierarchicalMethodSignature> supers =
            new ArrayList<HierarchicalMethodSignature>(hms.getSuperSignatures());
        for (HierarchicalMethodSignature aSuper : supers) {
          PsiClass superContainingClass = aSuper.getMethod().getContainingClass();
          if (containingClass != null
              && superContainingClass != null
              && !containingClass.isInheritor(superContainingClass, true)) {
            // methods must be inherited from unrelated classes, so flatten hierarchy here
            // class C implements SAM1, SAM2 { void methodimpl() {} }
            // hms.getSuperSignatures().remove(aSuper);
            flattened.add(
                new Pair<MethodSignature, HierarchicalMethodSignature>(signature, aSuper));
          }
        }
        putInMap(aClass, result, map, hms, signature);
      }
      for (Pair<MethodSignature, HierarchicalMethodSignature> pair : flattened) {
        putInMap(aClass, result, map, pair.second, pair.first);
      }
    }

    for (Map.Entry<MethodSignature, HierarchicalMethodSignatureImpl> entry : map.entrySet()) {
      HierarchicalMethodSignatureImpl hierarchicalMethodSignature = entry.getValue();
      MethodSignature methodSignature = entry.getKey();
      if (result.get(methodSignature) == null
          && PsiUtil.isAccessible(
              aClass.getProject(), hierarchicalMethodSignature.getMethod(), aClass, aClass)) {
        LOG.assertTrue(hierarchicalMethodSignature.getMethod().isValid());
        result.put(methodSignature, hierarchicalMethodSignature);
      }
    }

    return result;
  }
  public static boolean processDeclarations(
      @NotNull GrTypeDefinition grType,
      @NotNull PsiScopeProcessor processor,
      @NotNull ResolveState state,
      @Nullable PsiElement lastParent,
      @NotNull PsiElement place) {
    if (place instanceof GrCodeReferenceElement && lastParent instanceof GrModifierList) {
      final PsiElement possibleAnnotation =
          PsiTreeUtil.skipParentsOfType(place, GrCodeReferenceElement.class);
      if (possibleAnnotation instanceof GrAnnotation
          && possibleAnnotation.getParent() == lastParent) {
        return true; // don't process class members while resolving annotation which annotates
                     // current class
      }
    }

    for (final PsiTypeParameter typeParameter : grType.getTypeParameters()) {
      if (!processElement(processor, typeParameter, state)) return false;
    }

    NameHint nameHint = processor.getHint(NameHint.KEY);
    String name = nameHint == null ? null : nameHint.getName(state);
    ClassHint classHint = processor.getHint(ClassHint.KEY);
    final PsiSubstitutor substitutor = state.get(PsiSubstitutor.KEY);
    final PsiElementFactory factory = JavaPsiFacade.getElementFactory(place.getProject());

    boolean processInstanceMethods =
        (shouldProcessMethods(classHint) || shouldProcessProperties(classHint))
            && shouldProcessInstanceMembers(grType, lastParent);

    LanguageLevel level = PsiUtil.getLanguageLevel(place);
    if (shouldProcessProperties(classHint)) {
      Map<String, CandidateInfo> fieldsMap = CollectClassMembersUtil.getAllFields(grType);
      if (name != null) {
        CandidateInfo fieldInfo = fieldsMap.get(name);
        if (fieldInfo != null) {
          if (!processField(
              grType,
              processor,
              state,
              place,
              processInstanceMethods,
              substitutor,
              factory,
              level,
              fieldInfo)) {
            return false;
          }
        } else if (grType.isTrait() && lastParent != null) {
          PsiField field = findFieldByName(grType, name, false, true);
          if (field != null && field.hasModifierProperty(PsiModifier.PUBLIC)) {
            if (!processField(
                grType,
                processor,
                state,
                place,
                processInstanceMethods,
                substitutor,
                factory,
                level,
                new CandidateInfo(field, PsiSubstitutor.EMPTY))) {
              return false;
            }
          }
        }
      } else {
        for (CandidateInfo info : fieldsMap.values()) {
          if (!processField(
              grType,
              processor,
              state,
              place,
              processInstanceMethods,
              substitutor,
              factory,
              level,
              info)) {
            return false;
          }
        }
        if (grType.isTrait() && lastParent != null) {
          for (PsiField field : CollectClassMembersUtil.getFields(grType, true)) {
            if (field.hasModifierProperty(PsiModifier.PUBLIC)) {
              if (!processField(
                  grType,
                  processor,
                  state,
                  place,
                  processInstanceMethods,
                  substitutor,
                  factory,
                  level,
                  new CandidateInfo(field, PsiSubstitutor.EMPTY))) {
                return false;
              }
            }
          }
        }
      }
    }

    if (shouldProcessMethods(classHint)) {
      Map<String, List<CandidateInfo>> methodsMap =
          CollectClassMembersUtil.getAllMethods(grType, true);
      boolean isPlaceGroovy = place.getLanguage() == GroovyFileType.GROOVY_LANGUAGE;
      if (name == null) {
        for (List<CandidateInfo> list : methodsMap.values()) {
          for (CandidateInfo info : list) {
            if (!processMethod(
                grType,
                processor,
                state,
                place,
                processInstanceMethods,
                substitutor,
                factory,
                level,
                isPlaceGroovy,
                info)) {
              return false;
            }
          }
        }
      } else {
        List<CandidateInfo> byName = methodsMap.get(name);
        if (byName != null) {
          for (CandidateInfo info : byName) {
            if (!processMethod(
                grType,
                processor,
                state,
                place,
                processInstanceMethods,
                substitutor,
                factory,
                level,
                isPlaceGroovy,
                info)) {
              return false;
            }
          }
        }
      }
    }

    final GrTypeDefinitionBody body = grType.getBody();
    if (body != null) {
      if (shouldProcessClasses(classHint)) {
        for (PsiClass innerClass : getInnerClassesForResolve(grType, lastParent, place)) {
          final String innerClassName = innerClass.getName();
          if (nameHint != null && !innerClassName.equals(nameHint.getName(state))) {
            continue;
          }

          if (!processor.execute(innerClass, state)) {
            return false;
          }
        }
      }
    }

    return true;
  }
 public static Collection<HierarchicalMethodSignature> getVisibleSignatures(PsiClass aClass) {
   Map<MethodSignature, HierarchicalMethodSignature> map = getSignaturesMap(aClass);
   return map.values();
 }
  // uses hierarchy signature tree if available, traverses class structure by itself otherwise
  public static boolean isSuperMethodSmart(
      @NotNull PsiMethod method, @NotNull PsiMethod superMethod) {
    // boolean old = PsiSuperMethodUtil.isSuperMethod(method, superMethod);

    if (method == superMethod) return false;
    PsiClass aClass = method.getContainingClass();
    PsiClass superClass = superMethod.getContainingClass();

    if (aClass == null || superClass == null || superClass == aClass) return false;

    if (!canHaveSuperMethod(method, true, false)) return false;

    PsiMethod[] superMethods = null;
    Map<MethodSignature, HierarchicalMethodSignature> cachedMap =
        SIGNATURES_KEY.getCachedValueOrNull(aClass);
    if (cachedMap != null) {
      HierarchicalMethodSignature signature =
          cachedMap.get(method.getSignature(PsiSubstitutor.EMPTY));
      if (signature != null) {
        superMethods =
            MethodSignatureUtil.convertMethodSignaturesToMethods(signature.getSuperSignatures());
      }
    }
    if (superMethods == null) {
      PsiClassType[] directSupers = aClass.getSuperTypes();
      List<PsiMethod> found = null;
      boolean canceled = false;
      for (PsiClassType directSuper : directSupers) {
        PsiClassType.ClassResolveResult resolveResult = directSuper.resolveGenerics();
        if (resolveResult.getSubstitutor() != PsiSubstitutor.EMPTY) {
          // generics
          canceled = true;
          break;
        }
        PsiClass directSuperClass = resolveResult.getElement();
        if (directSuperClass == null) continue;
        PsiMethod[] candidates = directSuperClass.findMethodsBySignature(method, false);
        if (candidates.length != 0) {
          if (found == null) found = new ArrayList<PsiMethod>();
          for (PsiMethod candidate : candidates) {
            if (PsiUtil.canBeOverriden(candidate)) found.add(candidate);
          }
        }
      }
      superMethods =
          canceled
              ? null
              : found == null ? PsiMethod.EMPTY_ARRAY : found.toArray(new PsiMethod[found.size()]);
    }
    if (superMethods == null) {
      superMethods =
          MethodSignatureUtil.convertMethodSignaturesToMethods(
              method.getHierarchicalMethodSignature().getSuperSignatures());
    }

    for (PsiMethod superCandidate : superMethods) {
      if (superMethod.equals(superCandidate) || isSuperMethodSmart(superCandidate, superMethod))
        return true;
    }
    return false;
  }
  static PsiSubstitutor infer(
      @NotNull PsiTypeParameter[] typeParameters,
      @NotNull PsiParameter[] parameters,
      @NotNull PsiExpression[] arguments,
      @NotNull PsiSubstitutor partialSubstitutor,
      @NotNull final PsiElement parent,
      @NotNull final ParameterTypeInferencePolicy policy) {
    if (parent instanceof PsiCall) {
      final PsiExpressionList argumentList = ((PsiCall) parent).getArgumentList();
      final MethodCandidateInfo.CurrentCandidateProperties properties =
          MethodCandidateInfo.getCurrentMethod(argumentList);
      // overload resolution can't depend on outer call => should not traverse to top
      if (properties != null
          && !properties.isApplicabilityCheck()
          &&
          // in order to to avoid caching of candidates's errors on parent (!) , so check for
          // overload resolution is left here
          // But overload resolution can depend on type of lambda parameter. As it can't depend on
          // lambda body,
          // traversing down would stop at lambda level and won't take into account overloaded
          // method
          !MethodCandidateInfo.ourOverloadGuard.currentStack().contains(argumentList)) {
        final PsiCall topLevelCall =
            PsiResolveHelper.ourGraphGuard.doPreventingRecursion(
                parent,
                false,
                new Computable<PsiCall>() {
                  @Override
                  public PsiCall compute() {
                    if (parent instanceof PsiExpression
                        && !PsiPolyExpressionUtil.isPolyExpression((PsiExpression) parent)) {
                      return null;
                    }
                    return LambdaUtil.treeWalkUp(parent);
                  }
                });
        if (topLevelCall != null) {

          InferenceSession session;
          if (MethodCandidateInfo.isOverloadCheck()
              || !PsiDiamondType.ourDiamondGuard.currentStack().isEmpty()
              || LambdaUtil.isLambdaParameterCheck()) {
            session = startTopLevelInference(topLevelCall, policy);
          } else {
            session =
                CachedValuesManager.getCachedValue(
                    topLevelCall,
                    new CachedValueProvider<InferenceSession>() {
                      @Nullable
                      @Override
                      public Result<InferenceSession> compute() {
                        return new Result<InferenceSession>(
                            startTopLevelInference(topLevelCall, policy),
                            PsiModificationTracker.MODIFICATION_COUNT);
                      }
                    });

            if (session != null) {
              // reject cached top level session if it was based on wrong candidate: check nested
              // session if candidate (it's type parameters) are the same
              // such situations are avoided when overload resolution is performed
              // (MethodCandidateInfo.isOverloadCheck above)
              // but situations when client code iterates through
              // PsiResolveHelper.getReferencedMethodCandidates or similar are impossible to guess
              final Map<PsiElement, InferenceSession> sessions =
                  session.getInferenceSessionContainer().myNestedSessions;
              final InferenceSession childSession = sessions.get(parent);
              if (childSession != null) {
                for (PsiTypeParameter parameter : typeParameters) {
                  if (!childSession
                      .getInferenceSubstitution()
                      .getSubstitutionMap()
                      .containsKey(parameter)) {
                    session = startTopLevelInference(topLevelCall, policy);
                    break;
                  }
                }
              }
            }
          }

          if (session != null) {
            final PsiSubstitutor childSubstitutor =
                inferNested(
                    typeParameters,
                    parameters,
                    arguments,
                    partialSubstitutor,
                    (PsiCall) parent,
                    policy,
                    properties,
                    session);
            if (childSubstitutor != null) return childSubstitutor;
          } else if (topLevelCall instanceof PsiMethodCallExpression) {
            return new InferenceSession(
                    typeParameters, partialSubstitutor, parent.getManager(), parent, policy)
                .prepareSubstitution();
          }
        }
      }
    }

    final InferenceSession inferenceSession =
        new InferenceSession(
            typeParameters, partialSubstitutor, parent.getManager(), parent, policy);
    inferenceSession.initExpressionConstraints(parameters, arguments, parent);
    return inferenceSession.infer(parameters, arguments, parent);
  }
 public void registerNestedSession(InferenceSession session) {
   myNestedSessions.put(session.getContext(), session);
   myNestedSessions.putAll(session.getInferenceSessionContainer().myNestedSessions);
 }