public Pair<Set<Instruction>, Set<Instruction>> getConstConditionalExpressions() {
    Set<Instruction> trueSet = new HashSet<Instruction>();
    Set<Instruction> falseSet = new HashSet<Instruction>();

    for (Instruction instruction : myInstructions) {
      if (instruction instanceof BranchingInstruction) {
        BranchingInstruction branchingInstruction = (BranchingInstruction) instruction;
        if (branchingInstruction.getPsiAnchor() != null
            && branchingInstruction.isConditionConst()) {
          if (!branchingInstruction.isTrueReachable()) {
            falseSet.add(branchingInstruction);
          }

          if (!branchingInstruction.isFalseReachable()) {
            trueSet.add(branchingInstruction);
          }
        }
      }
    }

    for (Instruction instruction : myInstructions) {
      if (instruction instanceof BranchingInstruction) {
        BranchingInstruction branchingInstruction = (BranchingInstruction) instruction;
        if (branchingInstruction.isTrueReachable()) {
          falseSet.remove(branchingInstruction);
        }
        if (branchingInstruction.isFalseReachable()) {
          trueSet.remove(branchingInstruction);
        }
      }
    }

    return Pair.create(trueSet, falseSet);
  }
    @Override
    public boolean equals(Object o) {
      if (this == o) return true;
      if (o == null || getClass() != o.getClass()) return false;

      AllowedValues a2 = (AllowedValues) o;
      if (canBeOred != a2.canBeOred) {
        return false;
      }
      Set<PsiAnnotationMemberValue> v1 =
          new THashSet<PsiAnnotationMemberValue>(Arrays.asList(values));
      Set<PsiAnnotationMemberValue> v2 =
          new THashSet<PsiAnnotationMemberValue>(Arrays.asList(a2.values));
      if (v1.size() != v2.size()) {
        return false;
      }
      for (PsiAnnotationMemberValue value : v1) {
        for (PsiAnnotationMemberValue value2 : v2) {
          if (same(value, value2, value.getManager())) {
            v2.remove(value2);
            break;
          }
        }
      }
      return v2.isEmpty();
    }
  private static Map<String, PsiType> getCompatibleTypeNames(
      @NotNull PsiType type, @Nullable PsiType min, PsiManager manager, GlobalSearchScope scope) {
    if (type instanceof PsiDisjunctionType) type = ((PsiDisjunctionType) type).getLeastUpperBound();

    // if initial type is not assignable to min type we don't take into consideration min type.
    if (min != null && !TypesUtil.isAssignable(min, type, manager, scope)) {
      min = null;
    }

    Map<String, PsiType> map = new LinkedHashMap<String, PsiType>();
    final PsiPrimitiveType unboxed = PsiPrimitiveType.getUnboxedType(type);
    if (unboxed != null) type = unboxed;
    final Set<PsiType> set = new LinkedHashSet<PsiType>();
    set.add(type);
    while (!set.isEmpty()) {
      PsiType cur = set.iterator().next();
      set.remove(cur);
      if (!map.containsValue(cur)
          && (min == null || TypesUtil.isAssignable(min, cur, manager, scope))) {
        if (isPartiallySubstituted(cur)) {
          LOG.assertTrue(cur instanceof PsiClassType);
          PsiClassType rawType = ((PsiClassType) cur).rawType();
          map.put(rawType.getPresentableText(), rawType);
        } else {
          map.put(cur.getPresentableText(), cur);
        }
        for (PsiType superType : cur.getSuperTypes()) {
          if (!map.containsValue(superType)) {
            set.add(superType);
          }
        }
      }
    }
    return map;
  }
 @Override
 public boolean unregisterMultiHostInjector(@NotNull MultiHostInjector injector) {
   try {
     return myManualInjectors.remove(injector);
   } finally {
     clearInjectorCache();
   }
 }
  private static boolean hasSuperMethodsWithoutExceptions(
      @NotNull PsiMethod[] superMethods, @NotNull Set<PsiClassType> unhandledExceptions) {
    for (PsiMethod superMethod : superMethods) {
      PsiClassType[] referencedTypes = superMethod.getThrowsList().getReferencedTypes();

      Set<PsiClassType> exceptions = new HashSet<PsiClassType>(unhandledExceptions);
      for (PsiClassType referencedType : referencedTypes) {
        for (PsiClassType exception : unhandledExceptions) {
          if (referencedType.isAssignableFrom(exception)) exceptions.remove(exception);
        }
      }

      if (!exceptions.isEmpty()) return true;
    }

    return false;
  }
  void handleCommitWithoutPsi(@NotNull Document document) {
    final Pair<CharSequence, Long> prevPair = myLastCommittedTexts.remove(document);
    if (prevPair == null) {
      return;
    }

    if (!myProject.isInitialized() || myProject.isDisposed()) {
      return;
    }

    myUncommittedDocuments.remove(document);

    VirtualFile virtualFile = FileDocumentManager.getInstance().getFile(document);
    if (virtualFile == null || !FileIndexFacade.getInstance(myProject).isInContent(virtualFile)) {
      return;
    }

    final PsiFile psiFile = getPsiFile(document);
    if (psiFile == null) {
      return;
    }

    // we can end up outside write action here if the document has forUseInNonAWTThread=true
    ApplicationManager.getApplication()
        .runWriteAction(
            new ExternalChangeAction() {
              @Override
              public void run() {
                psiFile.getViewProvider().beforeContentsSynchronized();
                synchronized (PsiLock.LOCK) {
                  final int oldLength = prevPair.first.length();
                  PsiManagerImpl manager = (PsiManagerImpl) psiFile.getManager();
                  BlockSupportImpl.sendBeforeChildrenChangeEvent(manager, psiFile, true);
                  BlockSupportImpl.sendBeforeChildrenChangeEvent(manager, psiFile, false);
                  if (psiFile instanceof PsiFileImpl) {
                    ((PsiFileImpl) psiFile).onContentReload();
                  }
                  BlockSupportImpl.sendAfterChildrenChangedEvent(
                      manager, psiFile, oldLength, false);
                  BlockSupportImpl.sendAfterChildrenChangedEvent(manager, psiFile, oldLength, true);
                }
                psiFile.getViewProvider().contentsSynchronized();
              }
            });
  }
示例#7
0
  @NotNull
  private Function methodToFunction(@NotNull PsiMethod method, boolean notEmpty) {
    if (isOverrideObjectDirect(method)) {
      dispatcher.setExpressionVisitor(new ExpressionVisitorForDirectObjectInheritors(this));
    } else {
      dispatcher.setExpressionVisitor(new ExpressionVisitor(this));
    }

    methodReturnType = method.getReturnType();

    IdentifierImpl identifier = new IdentifierImpl(method.getName());
    Type returnType =
        typeToType(
            method.getReturnType(), ConverterUtil.isAnnotatedAsNotNull(method.getModifierList()));
    Block body =
        hasFlag(J2KConverterFlags.SKIP_BODIES)
            ? Block.EMPTY_BLOCK
            : blockToBlock(method.getBody(), notEmpty); // #TODO
    Element params = createFunctionParameters(method);
    List<Element> typeParameters = elementsToElementList(method.getTypeParameters());

    Set<String> modifiers = modifiersListToModifiersSet(method.getModifierList());
    if (isOverrideAnyMethodExceptMethodsFromObject(method)) {
      modifiers.add(Modifier.OVERRIDE);
    }
    if (method.getParent() instanceof PsiClass && ((PsiClass) method.getParent()).isInterface()) {
      modifiers.remove(Modifier.ABSTRACT);
    }
    if (isNotOpenMethod(method)) {
      modifiers.add(Modifier.NOT_OPEN);
    }

    if (method.isConstructor()) { // TODO: simplify
      boolean isPrimary = isConstructorPrimary(method);
      return new Constructor(
          identifier,
          modifiers,
          returnType,
          typeParameters,
          params,
          new Block(removeEmpty(body.getStatements()), false),
          isPrimary);
    }
    return new Function(identifier, modifiers, returnType, typeParameters, params, body);
  }
  protected boolean finishCommitInWriteAction(
      @NotNull final Document document,
      @NotNull final List<Processor<Document>> finishProcessors,
      final boolean synchronously) {
    if (myProject.isDisposed()) return false;
    assert !(document instanceof DocumentWindow);
    myIsCommitInProgress = true;
    boolean success = true;
    try {
      final FileViewProvider viewProvider = getCachedViewProvider(document);
      if (viewProvider != null) {
        for (Processor<Document> finishRunnable : finishProcessors) {
          success = finishRunnable.process(document);
          if (synchronously) {
            assert success : finishRunnable + " in " + finishProcessors;
          }
          if (!success) {
            break;
          }
        }
        if (success) {
          myLastCommittedTexts.remove(document);
          viewProvider.contentsSynchronized();
        }
      } else {
        handleCommitWithoutPsi(document);
      }
    } finally {
      myDocumentCommitProcessor.log(
          "in PDI.finishDoc: ", null, synchronously, success, myUncommittedDocuments);
      if (success) {
        myUncommittedDocuments.remove(document);
        myDocumentCommitProcessor.log(
            "in PDI.finishDoc: removed doc", null, synchronously, success, myUncommittedDocuments);
      }
      myIsCommitInProgress = false;
      myDocumentCommitProcessor.log(
          "in PDI.finishDoc: exit", null, synchronously, success, myUncommittedDocuments);
    }

    return success;
  }
  @Override
  public void removeEntryPoint(@NotNull RefElement anEntryPoint) {
    myTemporaryEntryPoints.remove(anEntryPoint);

    Set<Map.Entry<String, SmartRefElementPointer>> set = myPersistentEntryPoints.entrySet();
    String key = null;
    for (Map.Entry<String, SmartRefElementPointer> entry : set) {
      SmartRefElementPointer value = entry.getValue();
      if (value.getRefElement() == anEntryPoint) {
        key = entry.getKey();
        break;
      }
    }

    if (key != null) {
      myPersistentEntryPoints.remove(key);
    }
    ((RefElementImpl) anEntryPoint).setEntry(false);

    if (anEntryPoint.isPermanentEntry() && anEntryPoint.isValid()) {
      final Project project = anEntryPoint.getElement().getProject();
      final EntryPointsManager entryPointsManager = getInstance(project);
      if (this != entryPointsManager) {
        entryPointsManager.removeEntryPoint(anEntryPoint);
      }
    }

    if (anEntryPoint instanceof RefMethod && ((RefMethod) anEntryPoint).isConstructor()
        || anEntryPoint instanceof RefClass) {
      final RefClass aClass =
          anEntryPoint instanceof RefClass
              ? (RefClass) anEntryPoint
              : ((RefMethod) anEntryPoint).getOwnerClass();
      final String qualifiedName = aClass.getQualifiedName();
      for (Iterator<ClassPattern> iterator = getPatterns().iterator(); iterator.hasNext(); ) {
        if (Comparing.equal(iterator.next().pattern, qualifiedName)) {
          // todo if inheritance or pattern?
          iterator.remove();
        }
      }
    }
  }
  /**
   * Adds 'method' to 'signatures' if it doesn't yet contain any method with the same signature or
   * replaces abstract methods
   */
  private static void addMethodChecked(
      Map<MethodSignature, PsiMethod> signatures,
      PsiMethod method,
      PsiSubstitutor substitutor,
      @Nullable Set<PsiMethod> resultSet) {
    if (method.isConstructor()) return;
    if (method.hasModifierProperty(PsiModifier.STATIC)) return;

    final MethodSignature signature = method.getSignature(substitutor);
    final PsiMethod old = signatures.get(signature);

    if (old != null) {
      // if (method.hasModifierProperty(PsiModifier.ABSTRACT)) return;
      if (!old.hasModifierProperty(PsiModifier.ABSTRACT)) return;

      if (resultSet != null) resultSet.remove(old);
    }

    signatures.put(signature, method);
    if (resultSet != null) resultSet.add(method);
  }
  private static void createActionsMap(
      final List<ASTNode> astNodes,
      final FileViewProvider provider,
      final TreeSet<PostprocessFormattingTask> rangesToProcess) {
    final Set<ASTNode> nodesToProcess = new HashSet<ASTNode>(astNodes);
    final Document document = provider.getDocument();
    for (final ASTNode node : astNodes) {
      nodesToProcess.remove(node);
      final FileElement fileElement = TreeUtil.getFileElement((TreeElement) node);
      if (fileElement == null || ((PsiFile) fileElement.getPsi()).getViewProvider() != provider)
        continue;
      final boolean isGenerated = CodeEditUtil.isNodeGenerated(node);

      ((TreeElement) node)
          .acceptTree(
              new RecursiveTreeElementVisitor() {
                boolean inGeneratedContext = !isGenerated;

                protected boolean visitNode(TreeElement element) {
                  if (nodesToProcess.contains(element)) return false;
                  if (CodeEditUtil.isPostponedFormattingDisabled(element)) return false;

                  final boolean currentNodeGenerated = CodeEditUtil.isNodeGenerated(element);
                  CodeEditUtil.setNodeGenerated(element, false);
                  if (currentNodeGenerated && !inGeneratedContext) {
                    rangesToProcess.add(
                        new ReformatTask(document.createRangeMarker(element.getTextRange())));
                    inGeneratedContext = true;
                  }
                  if (!currentNodeGenerated && inGeneratedContext) {
                    if (element.getElementType() == TokenType.WHITE_SPACE) return false;
                    final int oldIndent = CodeEditUtil.getOldIndentation(element);
                    LOG.assertTrue(
                        oldIndent >= 0,
                        "for not generated items old indentation must be defined: element "
                            + element);
                    rangesToProcess.add(
                        new ReindentTask(
                            document.createRangeMarker(element.getTextRange()), oldIndent));
                    inGeneratedContext = false;
                  }
                  return true;
                }

                @Override
                public void visitComposite(CompositeElement composite) {
                  boolean oldGeneratedContext = inGeneratedContext;
                  super.visitComposite(composite);
                  inGeneratedContext = oldGeneratedContext;
                }

                @Override
                public void visitLeaf(LeafElement leaf) {
                  boolean oldGeneratedContext = inGeneratedContext;
                  super.visitLeaf(leaf);
                  inGeneratedContext = oldGeneratedContext;
                }
              });

      CodeEditUtil.enablePostponedFormattingInTree(node);
    }
  }
  private void processBatch(
      @NotNull final ProgressIndicator indicator, @NotNull Set<VirtualFile> files) {
    assert !myApplication.isDispatchThread();
    final int resolvedInPreviousBatch = this.resolvedInPreviousBatch;
    final int totalSize = files.size() + resolvedInPreviousBatch;
    final ConcurrentIntObjectMap<int[]> fileToForwardIds =
        ContainerUtil.createConcurrentIntObjectMap();
    final Set<VirtualFile> toProcess = Collections.synchronizedSet(files);
    indicator.setIndeterminate(false);
    ProgressIndicatorUtils.forceWriteActionPriority(indicator, (Disposable) indicator);
    long start = System.currentTimeMillis();
    Processor<VirtualFile> processor =
        file -> {
          double fraction = 1 - toProcess.size() * 1.0 / totalSize;
          indicator.setFraction(fraction);
          try {
            if (!file.isDirectory() && toResolve(file, myProject)) {
              int fileId = getAbsId(file);
              int i = totalSize - toProcess.size();
              indicator.setText(i + "/" + totalSize + ": Resolving " + file.getPresentableUrl());
              int[] forwardIds = processFile(file, fileId, indicator);
              if (forwardIds == null) {
                // queueUpdate(file);
                return false;
              }
              fileToForwardIds.put(fileId, forwardIds);
            }
            toProcess.remove(file);
            return true;
          } catch (RuntimeException e) {
            indicator.checkCanceled();
          }
          return true;
        };
    boolean success = true;
    try {
      success = processFilesConcurrently(files, indicator, processor);
    } finally {
      this.resolvedInPreviousBatch = toProcess.isEmpty() ? 0 : totalSize - toProcess.size();
      queue(toProcess, "re-added after fail. success=" + success);
      storeIds(fileToForwardIds);

      long end = System.currentTimeMillis();
      log(
          "Resolved batch of "
              + (totalSize - toProcess.size())
              + " from "
              + totalSize
              + " files in "
              + ((end - start) / 1000)
              + "sec. (Gap: "
              + storage.gap
              + ")");
      synchronized (filesToResolve) {
        upToDate = filesToResolve.isEmpty();
        log("upToDate = " + upToDate);
        if (upToDate) {
          for (Listener listener : myListeners) {
            listener.allFilesResolved();
          }
        }
      }
    }
  }
  private static Set<PsiMethod> validateOverridingMethods(
      PsiMethod originalMethod,
      final Collection<PsiReference> originalReferences,
      Collection<PsiMethod> overridingMethods,
      HashMap<PsiMethod, Collection<PsiReference>> methodToReferences,
      List<UsageInfo> usages,
      final PsiElement[] allElementsToDelete) {
    Set<PsiMethod> validOverriding = new LinkedHashSet<>(overridingMethods);
    Set<PsiMethod> multipleInterfaceImplementations = new HashSet<>();
    boolean anyNewBadRefs;
    do {
      anyNewBadRefs = false;
      for (PsiMethod overridingMethod : overridingMethods) {
        if (validOverriding.contains(overridingMethod)) {
          final Collection<PsiReference> overridingReferences =
              methodToReferences.get(overridingMethod);
          boolean anyOverridingRefs = false;
          for (final PsiReference overridingReference : overridingReferences) {
            final PsiElement element = overridingReference.getElement();
            if (!isInside(element, allElementsToDelete) && !isInside(element, validOverriding)) {
              anyOverridingRefs = true;
              break;
            }
          }
          if (!anyOverridingRefs
              && isMultipleInterfacesImplementation(
                  overridingMethod, originalMethod, allElementsToDelete)) {
            anyOverridingRefs = true;
            multipleInterfaceImplementations.add(overridingMethod);
          }

          if (anyOverridingRefs) {
            validOverriding.remove(overridingMethod);
            anyNewBadRefs = true;

            for (PsiReference reference : originalReferences) {
              final PsiElement element = reference.getElement();
              if (!isInside(element, allElementsToDelete)
                  && !isInside(element, overridingMethods)) {
                usages.add(
                    new SafeDeleteReferenceJavaDeleteUsageInfo(element, originalMethod, false));
                validOverriding.clear();
              }
            }
          }
        }
      }
    } while (anyNewBadRefs && !validOverriding.isEmpty());

    for (PsiMethod method : validOverriding) {
      if (method != originalMethod) {

        usages.add(new SafeDeleteOverridingMethodUsageInfo(method, originalMethod));
      }
    }

    for (PsiMethod method : overridingMethods) {
      if (!validOverriding.contains(method)
          && !multipleInterfaceImplementations.contains(method)
          && canBePrivate(
              method, methodToReferences.get(method), validOverriding, allElementsToDelete)) {
        usages.add(new SafeDeletePrivatizeMethod(method, originalMethod));
      } else {
        usages.add(new SafeDeleteOverrideAnnotation(method, originalMethod));
      }
    }
    return validOverriding;
  }
  private static void createActionsMap(
      @NotNull List<ASTNode> astNodes,
      @NotNull FileViewProvider provider,
      @NotNull final TreeSet<PostprocessFormattingTask> rangesToProcess) {
    final Set<ASTNode> nodesToProcess = new HashSet<ASTNode>(astNodes);
    final Document document = provider.getDocument();
    if (document == null) {
      return;
    }
    for (final ASTNode node : astNodes) {
      nodesToProcess.remove(node);
      final FileElement fileElement = TreeUtil.getFileElement((TreeElement) node);
      if (fileElement == null || ((PsiFile) fileElement.getPsi()).getViewProvider() != provider)
        continue;
      final boolean isGenerated = CodeEditUtil.isNodeGenerated(node);

      ((TreeElement) node)
          .acceptTree(
              new RecursiveTreeElementVisitor() {
                boolean inGeneratedContext = !isGenerated;

                @Override
                protected boolean visitNode(TreeElement element) {
                  if (nodesToProcess.contains(element)) return false;

                  final boolean currentNodeGenerated = CodeEditUtil.isNodeGenerated(element);
                  CodeEditUtil.setNodeGenerated(element, false);
                  if (currentNodeGenerated && !inGeneratedContext) {
                    rangesToProcess.add(
                        new ReformatTask(document.createRangeMarker(element.getTextRange())));
                    inGeneratedContext = true;
                  }
                  if (!currentNodeGenerated && inGeneratedContext) {
                    if (element.getElementType() == TokenType.WHITE_SPACE) return false;
                    final int oldIndent = CodeEditUtil.getOldIndentation(element);
                    CodeEditUtil.setOldIndentation(element, -1);
                    LOG.assertTrue(
                        oldIndent >= 0,
                        "for not generated items old indentation must be defined: element "
                            + element);
                    for (TextRange indentRange : getEnabledRanges(element.getPsi())) {
                      rangesToProcess.add(
                          new ReindentTask(document.createRangeMarker(indentRange), oldIndent));
                    }
                    inGeneratedContext = false;
                  }
                  return true;
                }

                private Iterable<TextRange> getEnabledRanges(@NotNull PsiElement element) {
                  List<TextRange> disabledRanges = new ArrayList<TextRange>();
                  for (DisabledIndentRangesProvider rangesProvider :
                      DisabledIndentRangesProvider.EP_NAME.getExtensions()) {
                    Collection<TextRange> providedDisabledRanges =
                        rangesProvider.getDisabledIndentRanges(element);
                    if (providedDisabledRanges != null) {
                      disabledRanges.addAll(providedDisabledRanges);
                    }
                  }
                  return TextRangeUtil.excludeRanges(element.getTextRange(), disabledRanges);
                }

                @Override
                public void visitComposite(CompositeElement composite) {
                  boolean oldGeneratedContext = inGeneratedContext;
                  super.visitComposite(composite);
                  inGeneratedContext = oldGeneratedContext;
                }

                @Override
                public void visitLeaf(LeafElement leaf) {
                  boolean oldGeneratedContext = inGeneratedContext;
                  super.visitLeaf(leaf);
                  inGeneratedContext = oldGeneratedContext;
                }
              });
    }
  }
  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;
  }