@Override
  protected boolean performRefactoring() {
    if (!ensureValid()) return false;
    CommandProcessor.getInstance()
        .executeCommand(
            myProject,
            () -> {
              final String refactoringId = getRefactoringId();
              if (refactoringId != null) {
                final RefactoringEventData beforeData = new RefactoringEventData();
                final V localVariable = getLocalVariable();
                if (localVariable != null) {
                  beforeData.addElement(localVariable);
                } else {
                  final E beforeExpr = getBeforeExpr();
                  if (beforeExpr != null) {
                    beforeData.addElement(beforeExpr);
                  }
                }
                myProject
                    .getMessageBus()
                    .syncPublisher(RefactoringEventListener.REFACTORING_EVENT_TOPIC)
                    .refactoringStarted(refactoringId, beforeData);
              }
              performIntroduce();
            },
            getCommandName(),
            getCommandName());

    V variable = getVariable();
    if (variable != null) {
      saveSettings(variable);
    }
    return false;
  }
 @Nullable
 @Override
 protected RefactoringEventData getAfterData(@NotNull UsageInfo[] usages) {
   final RefactoringEventData data = new RefactoringEventData();
   data.addElement(myTargetSuperClass);
   return data;
 }
 @Override
 protected void moveOffsetAfter(boolean success) {
   if (getLocalVariable() != null && getLocalVariable().isValid()) {
     myEditor.getCaretModel().moveToOffset(getLocalVariable().getTextOffset());
     myEditor.getScrollingModel().scrollToCaret(ScrollType.MAKE_VISIBLE);
   } else if (getExprMarker() != null) {
     final RangeMarker exprMarker = getExprMarker();
     if (exprMarker.isValid()) {
       myEditor.getCaretModel().moveToOffset(exprMarker.getStartOffset());
       myEditor.getScrollingModel().scrollToCaret(ScrollType.MAKE_VISIBLE);
     }
   }
   super.moveOffsetAfter(success);
   if (myLocalMarker != null && !isRestart()) {
     myLocalMarker.dispose();
   }
   if (success) {
     performPostIntroduceTasks();
     final String refactoringId = getRefactoringId();
     if (refactoringId != null) {
       final RefactoringEventData afterData = new RefactoringEventData();
       afterData.addElement(getVariable());
       myProject
           .getMessageBus()
           .syncPublisher(RefactoringEventListener.REFACTORING_EVENT_TOPIC)
           .refactoringDone(refactoringId, afterData);
     }
   }
 }
 @Nullable
 @Override
 protected RefactoringEventData getBeforeData() {
   RefactoringEventData data = new RefactoringEventData();
   data.addElement(mySourceClass);
   data.addMembers(myMembersToMove, info -> info.getMember());
   return data;
 }
  public void inlineElement(
      final Project project, final Editor editor, final PsiElement psiElement) {
    final PsiParameter psiParameter = (PsiParameter) psiElement;
    final PsiParameterList parameterList = (PsiParameterList) psiParameter.getParent();
    if (!(parameterList.getParent() instanceof PsiMethod)) {
      return;
    }
    final int index = parameterList.getParameterIndex(psiParameter);
    final PsiMethod method = (PsiMethod) parameterList.getParent();

    String errorMessage = getCannotInlineMessage(psiParameter, method);
    if (errorMessage != null) {
      CommonRefactoringUtil.showErrorHint(
          project,
          editor,
          errorMessage,
          RefactoringBundle.message("inline.parameter.refactoring"),
          null);
      return;
    }

    final Ref<PsiExpression> refInitializer = new Ref<PsiExpression>();
    final Ref<PsiExpression> refConstantInitializer = new Ref<PsiExpression>();
    final Ref<PsiCallExpression> refMethodCall = new Ref<PsiCallExpression>();
    final List<PsiReference> occurrences =
        Collections.synchronizedList(new ArrayList<PsiReference>());
    final Collection<PsiFile> containingFiles = Collections.synchronizedSet(new HashSet<PsiFile>());
    containingFiles.add(psiParameter.getContainingFile());
    boolean result =
        ReferencesSearch.search(method)
            .forEach(
                new Processor<PsiReference>() {
                  public boolean process(final PsiReference psiReference) {
                    PsiElement element = psiReference.getElement();
                    final PsiElement parent = element.getParent();
                    if (parent instanceof PsiCallExpression) {
                      final PsiCallExpression methodCall = (PsiCallExpression) parent;
                      occurrences.add(psiReference);
                      containingFiles.add(element.getContainingFile());
                      final PsiExpression[] expressions =
                          methodCall.getArgumentList().getExpressions();
                      if (expressions.length <= index) return false;
                      PsiExpression argument = expressions[index];
                      if (!refInitializer.isNull()) {
                        return argument != null
                            && PsiEquivalenceUtil.areElementsEquivalent(
                                refInitializer.get(), argument)
                            && PsiEquivalenceUtil.areElementsEquivalent(
                                refMethodCall.get(), methodCall);
                      }
                      if (InlineToAnonymousConstructorProcessor.isConstant(argument)
                          || getReferencedFinalField(argument) != null) {
                        if (refConstantInitializer.isNull()) {
                          refConstantInitializer.set(argument);
                        } else if (!isSameConstant(argument, refConstantInitializer.get())) {
                          return false;
                        }
                      } else if (!isRecursiveReferencedParameter(argument, psiParameter)) {
                        if (!refConstantInitializer.isNull()) return false;
                        refInitializer.set(argument);
                        refMethodCall.set(methodCall);
                      }
                    }
                    return true;
                  }
                });
    final int offset = editor.getCaretModel().getOffset();
    final PsiElement refExpr = psiElement.getContainingFile().findElementAt(offset);
    final PsiCodeBlock codeBlock = PsiTreeUtil.getParentOfType(refExpr, PsiCodeBlock.class);
    if (codeBlock != null) {
      final PsiElement[] defs = DefUseUtil.getDefs(codeBlock, psiParameter, refExpr);
      if (defs.length == 1) {
        final PsiElement def = defs[0];
        if (def instanceof PsiReferenceExpression
            && PsiUtil.isOnAssignmentLeftHand((PsiExpression) def)) {
          final PsiExpression rExpr = ((PsiAssignmentExpression) def.getParent()).getRExpression();
          if (rExpr != null) {
            final PsiElement[] refs = DefUseUtil.getRefs(codeBlock, psiParameter, refExpr);

            if (InlineLocalHandler.checkRefsInAugmentedAssignmentOrUnaryModified(refs, def)
                == null) {
              new WriteCommandAction(project) {
                @Override
                protected void run(Result result) throws Throwable {
                  for (final PsiElement ref : refs) {
                    InlineUtil.inlineVariable(
                        psiParameter, rExpr, (PsiJavaCodeReferenceElement) ref);
                  }
                  def.getParent().delete();
                }
              }.execute();
              return;
            }
          }
        }
      }
    }
    if (occurrences.isEmpty()) {
      CommonRefactoringUtil.showErrorHint(
          project,
          editor,
          "Method has no usages",
          RefactoringBundle.message("inline.parameter.refactoring"),
          null);
      return;
    }
    if (!result) {
      CommonRefactoringUtil.showErrorHint(
          project,
          editor,
          "Cannot find constant initializer for parameter",
          RefactoringBundle.message("inline.parameter.refactoring"),
          null);
      return;
    }
    if (!refInitializer.isNull()) {
      if (ApplicationManager.getApplication().isUnitTestMode()) {
        final InlineParameterExpressionProcessor processor =
            new InlineParameterExpressionProcessor(
                refMethodCall.get(),
                method,
                psiParameter,
                refInitializer.get(),
                method
                    .getProject()
                    .getUserData(InlineParameterExpressionProcessor.CREATE_LOCAL_FOR_TESTS));
        processor.run();
      } else {
        final boolean createLocal = ReferencesSearch.search(psiParameter).findAll().size() > 1;
        InlineParameterDialog dlg =
            new InlineParameterDialog(
                refMethodCall.get(), method, psiParameter, refInitializer.get(), createLocal);
        dlg.show();
      }
      return;
    }
    if (refConstantInitializer.isNull()) {
      CommonRefactoringUtil.showErrorHint(
          project,
          editor,
          "Cannot find constant initializer for parameter",
          RefactoringBundle.message("inline.parameter.refactoring"),
          null);
      return;
    }

    final Ref<Boolean> isNotConstantAccessible = new Ref<Boolean>();
    final PsiExpression constantExpression = refConstantInitializer.get();
    constantExpression.accept(
        new JavaRecursiveElementVisitor() {
          @Override
          public void visitReferenceExpression(PsiReferenceExpression expression) {
            super.visitReferenceExpression(expression);
            final PsiElement resolved = expression.resolve();
            if (resolved instanceof PsiMember
                && !PsiUtil.isAccessible((PsiMember) resolved, method, null)) {
              isNotConstantAccessible.set(Boolean.TRUE);
            }
          }
        });
    if (!isNotConstantAccessible.isNull() && isNotConstantAccessible.get()) {
      CommonRefactoringUtil.showErrorHint(
          project,
          editor,
          "Constant initializer is not accessible in method body",
          RefactoringBundle.message("inline.parameter.refactoring"),
          null);
      return;
    }

    for (PsiReference psiReference : ReferencesSearch.search(psiParameter)) {
      final PsiElement element = psiReference.getElement();
      if (element instanceof PsiExpression
          && PsiUtil.isAccessedForWriting((PsiExpression) element)) {
        CommonRefactoringUtil.showErrorHint(
            project,
            editor,
            "Inline parameter which has write usages is not supported",
            RefactoringBundle.message("inline.parameter.refactoring"),
            null);
        return;
      }
    }

    if (!ApplicationManager.getApplication().isUnitTestMode()) {
      String occurencesString = RefactoringBundle.message("occurences.string", occurrences.size());
      String question =
          RefactoringBundle.message(
                  "inline.parameter.confirmation",
                  psiParameter.getName(),
                  constantExpression.getText())
              + " "
              + occurencesString;
      RefactoringMessageDialog dialog =
          new RefactoringMessageDialog(
              REFACTORING_NAME,
              question,
              HelpID.INLINE_VARIABLE,
              "OptionPane.questionIcon",
              true,
              project);
      dialog.show();
      if (!dialog.isOK()) {
        return;
      }
    }

    final RefactoringEventData data = new RefactoringEventData();
    data.addElement(psiElement.copy());
    project
        .getMessageBus()
        .syncPublisher(RefactoringEventListener.REFACTORING_EVENT_TOPIC)
        .refactoringStarted(REFACTORING_ID, data);

    SameParameterValueInspection.InlineParameterValueFix.inlineSameParameterValue(
        method, psiParameter, constantExpression);

    project
        .getMessageBus()
        .syncPublisher(RefactoringEventListener.REFACTORING_EVENT_TOPIC)
        .refactoringDone(REFACTORING_ID, null);
  }