/** @see ISourceReference */
 public String getSource() throws JavaModelException {
   IBuffer buffer = getBuffer();
   if (buffer == null) {
     return null;
   }
   return buffer.getContents();
 }
Exemple #2
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  /**
   * Determines is the java element contains a type with a specific annotation.
   *
   * <p>The syntax for the property tester is of the form: qualified or unqualified annotation name
   * <li>qualified or unqualified annotation name, required. For example, <code>org.junit.JUnit
   *     </code>.
   * </ol>
   *
   * @param element the element to check for the method
   * @param annotationName the qualified or unqualified name of the annotation to look for
   * @return true if the type is found in the element, false otherwise
   */
  private boolean hasTypeWithAnnotation(IJavaElement element, String annotationType) {
    try {
      IType type = getType(element);
      if (type == null || !type.exists()) {
        return false;
      }

      IBuffer buffer = null;
      IOpenable openable = type.getOpenable();
      if (openable instanceof ICompilationUnit) {
        buffer = ((ICompilationUnit) openable).getBuffer();
      } else if (openable instanceof IClassFile) {
        buffer = ((IClassFile) openable).getBuffer();
      }
      if (buffer == null) {
        return false;
      }

      ISourceRange sourceRange = type.getSourceRange();
      ISourceRange nameRange = type.getNameRange();
      if (sourceRange != null && nameRange != null) {
        IScanner scanner = ToolFactory.createScanner(false, false, true, false);
        scanner.setSource(buffer.getCharacters());
        scanner.resetTo(sourceRange.getOffset(), nameRange.getOffset());
        if (findAnnotation(scanner, annotationType)) {
          return true;
        }
      }
    } catch (JavaModelException e) {
    } catch (InvalidInputException e) {
    }
    return false;
  }
  /** @see ICodeAssist#codeSelect(int, int, WorkingCopyOwner) */
  public IJavaElement[] codeSelect(int offset, int length, WorkingCopyOwner owner)
      throws JavaModelException {
    IBuffer buffer = getBuffer();
    char[] contents;
    if (buffer != null && (contents = buffer.getCharacters()) != null) {
      BinaryType type = (BinaryType) getType();
      // GROOVY start
      /*old{
      BasicCompilationUnit cu = new BasicCompilationUnit(contents, null, type.sourceFileName((IBinaryType) type.getElementInfo()));
      }new*/

      // handle code select for Groovy files differently
      IBinaryType typeInfo = (IBinaryType) type.getElementInfo();
      if (LanguageSupportFactory.isInterestingBinary(type, typeInfo)) {
        return LanguageSupportFactory.binaryCodeSelect(this, offset, length, owner);
      }
      BasicCompilationUnit cu =
          new BasicCompilationUnit(contents, null, type.sourceFileName(typeInfo));
      // GROOVY end
      return super.codeSelect(cu, offset, length, owner);
    } else {
      // has no associated souce
      return new IJavaElement[] {};
    }
  }
 private int getLineEnd(IBuffer buffer, int offset) {
   int pos = offset;
   int length = buffer.getLength();
   while (pos < length && !isDelemiter(buffer.getChar(pos))) {
     pos++;
   }
   return pos;
 }
 /** @see ISourceReference */
 public ISourceRange getSourceRange() throws JavaModelException {
   IBuffer buffer = getBuffer();
   if (buffer != null) {
     String contents = buffer.getContents();
     if (contents == null) return null;
     return new SourceRange(0, contents.length());
   } else {
     return null;
   }
 }
 public char[] getContents() {
   try {
     IBuffer buffer = getBuffer();
     if (buffer == null) return CharOperation.NO_CHAR;
     char[] characters = buffer.getCharacters();
     if (characters == null) return CharOperation.NO_CHAR;
     return characters;
   } catch (JavaModelException e) {
     return CharOperation.NO_CHAR;
   }
 }
 private static int moveBack(int offset, int start, String ignoreCharacters, ICompilationUnit cu) {
   try {
     IBuffer buf = cu.getBuffer();
     while (offset >= start) {
       if (ignoreCharacters.indexOf(buf.getChar(offset - 1)) == -1) {
         return offset;
       }
       offset--;
     }
   } catch (JavaModelException e) {
   }
   return start;
 }
 private int getLineStart(IBuffer buffer, int offset) {
   int pos = offset;
   while (pos >= 0 && !isDelemiter(buffer.getChar(pos))) {
     pos--;
   }
   return pos + 1;
 }
  private void setContentsToCU(ICompilationUnit unit, String value) {
    if (unit == null) {
      return;
    }

    synchronized (unit) {
      IBuffer buffer;
      try {
        buffer = unit.getBuffer();
        if (buffer != null) {
          buffer.setContents(value);
        }
      } catch (JavaModelException e) {
        e.printStackTrace();
      }
    }
  }
  /** @see Openable#openBuffer(IProgressMonitor, Object) */
  protected IBuffer openBuffer(IProgressMonitor pm, Object info) throws JavaModelException {

    // create buffer
    IBuffer buffer = this.owner.createBuffer(this);
    if (buffer == null) return null;

    // set the buffer source
    if (buffer.getCharacters() == null) {
      IBuffer classFileBuffer = this.classFile.getBuffer();
      if (classFileBuffer != null) {
        buffer.setContents(classFileBuffer.getCharacters());
      } else {
        // Disassemble
        IClassFileReader reader =
            ToolFactory.createDefaultClassFileReader(this.classFile, IClassFileReader.ALL);
        Disassembler disassembler = new Disassembler();
        String contents =
            disassembler.disassemble(
                reader,
                Util.getLineSeparator("", getJavaProject()),
                ClassFileBytesDisassembler.WORKING_COPY); // $NON-NLS-1$
        buffer.setContents(contents);
      }
    }

    // add buffer to buffer cache
    BufferManager bufManager = getBufferManager();
    bufManager.addBuffer(buffer);

    // listen to buffer changes
    buffer.addBufferChangedListener(this);

    return buffer;
  }
Exemple #11
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 /** @see ISourceReference */
 public String getSource() throws JavaModelException {
   IOpenable openable = this.parent.getOpenableParent();
   IBuffer buffer = openable.getBuffer();
   if (buffer == null) {
     return null;
   }
   ISourceRange range = getSourceRange();
   int offset = range.getOffset();
   int length = range.getLength();
   if (offset == -1 || length == 0) {
     return null;
   }
   try {
     return buffer.getText(offset, length);
   } catch (RuntimeException e) {
     return null;
   }
 }
Exemple #12
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  /** Loads the buffer via SourceMapper, and maps it in SourceMapper */
  private IBuffer mapSource(SourceMapper mapper, IBinaryType info, IClassFile bufferOwner) {
    char[] contents = mapper.findSource(getType(), info);
    if (contents != null) {
      // create buffer
      IBuffer buffer = BufferManager.createBuffer(bufferOwner);
      if (buffer == null) return null;
      BufferManager bufManager = getBufferManager();
      bufManager.addBuffer(buffer);

      // set the buffer source
      if (buffer.getCharacters() == null) {
        buffer.setContents(contents);
      }

      // listen to buffer changes
      buffer.addBufferChangedListener(this);

      // do the source mapping
      mapper.mapSource(getOuterMostEnclosingType(), contents, info);

      return buffer;
    } else {
      // create buffer
      IBuffer buffer = BufferManager.createNullBuffer(bufferOwner);
      if (buffer == null) return null;
      BufferManager bufManager = getBufferManager();
      bufManager.addBuffer(buffer);

      // listen to buffer changes
      buffer.addBufferChangedListener(this);
      return buffer;
    }
  }
Exemple #13
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  /**
   * Determines is the java element contains a method with a specific annotation.
   *
   * <p>The syntax for the property tester is of the form: qualified or unqualified annotation name,
   * modifiers
   * <li>qualified or unqualified annotation name, required. For example, <code>org.junit.JUnit
   *     </code>.
   * <li>modifiers - optional space separated list of modifiers, for example, <code>public static
   *     </code>.
   * </ol>
   *
   * @param element the element to check for the method
   * @param annotationName the qualified or unqualified name of the annotation to look for
   * @return true if the method is found in the element, false otherwise
   */
  private boolean hasMethodWithAnnotation(IJavaElement element, Object[] args) {
    try {
      String annotationType = (String) args[0];
      int flags = 0;
      if (args.length > 1) {
        String[] modifiers = ((String) args[1]).split(" "); // $NON-NLS-1$
        for (int j = 0; j < modifiers.length; j++) {
          String modifier = modifiers[j];
          Integer flag = (Integer) fgModifiers.get(modifier);
          if (flag != null) {
            flags = flags | flag.intValue();
          }
        }
      } else {
        flags = -1;
      }

      IType type = getType(element);
      if (type == null || !type.exists()) {
        return false;
      }
      IMethod[] methods = type.getMethods();
      if (methods.length == 0) {
        return false;
      }

      IBuffer buffer = null;
      IOpenable openable = type.getOpenable();
      if (openable instanceof ICompilationUnit) {
        buffer = ((ICompilationUnit) openable).getBuffer();
      } else if (openable instanceof IClassFile) {
        buffer = ((IClassFile) openable).getBuffer();
      }
      if (buffer == null) {
        return false;
      }
      IScanner scanner = null; // delay initialization

      for (int i = 0; i < methods.length; i++) {
        IMethod curr = methods[i];
        if (curr.isConstructor() || (flags != -1 && flags != (curr.getFlags() & FLAGS_MASK))) {
          continue;
        }

        ISourceRange sourceRange = curr.getSourceRange();
        ISourceRange nameRange = curr.getNameRange();
        if (sourceRange != null && nameRange != null) {
          if (scanner == null) {
            scanner = ToolFactory.createScanner(false, false, true, false);
            scanner.setSource(buffer.getCharacters());
          }
          scanner.resetTo(sourceRange.getOffset(), nameRange.getOffset());
          if (findAnnotation(scanner, annotationType)) {
            return true;
          }
        }
      }
    } catch (JavaModelException e) {
    } catch (InvalidInputException e) {
    }
    return false;
  }
  public void run(IMarker marker) {
    IFile file = (IFile) javaDeclaration.getResource();
    try {
      ICompilationUnit original = EclipseUtil.getCompilationUnit(file);
      if (original == null) {
        return;
      }
      ICompilationUnit compilationUnit = original.getWorkingCopy(new NullProgressMonitor());

      String lineDelim = JavaPropertyGenerator.getLineDelimiterUsed(compilationUnit);

      Hashtable<String, String> options = JavaCore.getOptions();

      int tabSize = new Integer(options.get("org.eclipse.jdt.core.formatter.tabulation.size"));

      StringBuffer tabBuf = new StringBuffer();

      for (int i = 0; i < tabSize; i++) tabBuf.append(" ");

      String tab = tabBuf.toString();

      IType type = compilationUnit.findPrimaryType();

      IField field = type.getField(property.getName());

      String propertyType = "";
      if (field != null && field.exists()) {
        propertyType = field.getTypeSignature();
      } else {
        propertyType = "String"; // $NON-NLS-1$

        StringBuffer buf = new StringBuffer();

        buf.append(
            tab
                + "private "
                + propertyType
                + " "
                + property.getName()
                + ";"); //$NON-NLS-1$ //$NON-NLS-2$ //$NON-NLS-3$
        buf.append(lineDelim);

        field = type.createField(buf.toString(), null, false, new NullProgressMonitor());
        if (field != null) {
          IBuffer buffer = compilationUnit.getBuffer();

          buffer.replace(
              field.getSourceRange().getOffset(),
              field.getSourceRange().getLength(),
              buf.toString());
          synchronized (compilationUnit) {
            compilationUnit.reconcile(ICompilationUnit.NO_AST, true, null, null);
          }
        }
      }

      IMethod oldMethod = GetterSetterUtil.getSetter(field);
      if (oldMethod == null || !oldMethod.exists()) {
        String setterName = GetterSetterUtil.getSetterName(field, null);
        // JavaPropertyGenerator.createSetter(compilationUnit, type, "public",
        // field.getTypeSignature(), setterName, lineDelim);

        String stub = GetterSetterUtil.getSetterStub(field, setterName, true, Flags.AccPublic);
        IMethod newMethod = type.createMethod(stub, null, false, new NullProgressMonitor());
        if (newMethod != null) {
          IBuffer buffer = compilationUnit.getBuffer();
          // format
          StringBuffer buf = new StringBuffer();

          buf.append(lineDelim);
          buf.append(
              tab
                  + "public void "
                  + setterName
                  + "("
                  + propertyType
                  + " "
                  + property.getName()
                  + "){"); //$NON-NLS-1$ //$NON-NLS-2$ //$NON-NLS-3$
          buf.append(lineDelim);
          buf.append(tab + tab + "this." + property.getName() + " = " + property.getName() + ";");
          buf.append(lineDelim);
          buf.append(tab + "}");
          buf.append(lineDelim);

          buffer.replace(
              newMethod.getSourceRange().getOffset(),
              newMethod.getSourceRange().getLength(),
              buf.toString());
        }
      }

      compilationUnit.commitWorkingCopy(false, new NullProgressMonitor());
      compilationUnit.discardWorkingCopy();

    } catch (CoreException ex) {
      SeamGuiPlugin.getPluginLog().logError(ex);
    }
  }
  /** @exception JavaModelException if setting the source of the original compilation unit fails */
  protected void executeOperation() throws JavaModelException {
    try {
      beginTask(Messages.workingCopy_commit, 2);
      CompilationUnit workingCopy = getCompilationUnit();

      if (ExternalJavaProject.EXTERNAL_PROJECT_NAME.equals(
          workingCopy.getJavaProject().getElementName())) {
        // case of a working copy without a resource
        workingCopy.getBuffer().save(this.progressMonitor, this.force);
        return;
      }

      ICompilationUnit primary = workingCopy.getPrimary();
      boolean isPrimary = workingCopy.isPrimary();

      JavaElementDeltaBuilder deltaBuilder = null;
      PackageFragmentRoot root =
          (PackageFragmentRoot) workingCopy.getAncestor(IJavaElement.PACKAGE_FRAGMENT_ROOT);
      boolean isIncluded = !Util.isExcluded(workingCopy);
      IFile resource = (IFile) workingCopy.getResource();
      IJavaProject project = root.getJavaProject();
      if (isPrimary
          || (root.validateOnClasspath().isOK()
              && isIncluded
              && resource.isAccessible()
              && Util.isValidCompilationUnitName(
                  workingCopy.getElementName(),
                  project.getOption(JavaCore.COMPILER_SOURCE, true),
                  project.getOption(JavaCore.COMPILER_COMPLIANCE, true)))) {

        // force opening so that the delta builder can get the old info
        if (!isPrimary && !primary.isOpen()) {
          primary.open(null);
        }

        // creates the delta builder (this remembers the content of the cu) if:
        // - it is not excluded
        // - and it is not a primary or it is a non-consistent primary
        if (isIncluded && (!isPrimary || !workingCopy.isConsistent())) {
          deltaBuilder = new JavaElementDeltaBuilder(primary);
        }

        // save the cu
        IBuffer primaryBuffer = primary.getBuffer();
        if (!isPrimary) {
          if (primaryBuffer == null) return;
          char[] primaryContents = primaryBuffer.getCharacters();
          boolean hasSaved = false;
          try {
            IBuffer workingCopyBuffer = workingCopy.getBuffer();
            if (workingCopyBuffer == null) return;
            primaryBuffer.setContents(workingCopyBuffer.getCharacters());
            primaryBuffer.save(this.progressMonitor, this.force);
            primary.makeConsistent(this);
            hasSaved = true;
          } finally {
            if (!hasSaved) {
              // restore original buffer contents since something went wrong
              primaryBuffer.setContents(primaryContents);
            }
          }
        } else {
          // for a primary working copy no need to set the content of the buffer again
          primaryBuffer.save(this.progressMonitor, this.force);
          primary.makeConsistent(this);
        }
      } else {
        // working copy on cu outside classpath OR resource doesn't exist yet
        String encoding = null;
        try {
          encoding = resource.getCharset();
        } catch (CoreException ce) {
          // use no encoding
        }
        String contents = workingCopy.getSource();
        if (contents == null) return;
        try {
          byte[] bytes = encoding == null ? contents.getBytes() : contents.getBytes(encoding);
          ByteArrayInputStream stream = new ByteArrayInputStream(bytes);
          if (resource.exists()) {
            resource.setContents(
                stream,
                this.force ? IResource.FORCE | IResource.KEEP_HISTORY : IResource.KEEP_HISTORY,
                null);
          } else {
            resource.create(stream, this.force, this.progressMonitor);
          }
        } catch (CoreException e) {
          throw new JavaModelException(e);
        } catch (UnsupportedEncodingException e) {
          throw new JavaModelException(e, IJavaModelStatusConstants.IO_EXCEPTION);
        }
      }

      setAttribute(HAS_MODIFIED_RESOURCE_ATTR, TRUE);

      // make sure working copy is in sync
      workingCopy.updateTimeStamp((CompilationUnit) primary);
      workingCopy.makeConsistent(this);
      worked(1);

      // build the deltas
      if (deltaBuilder != null) {
        deltaBuilder.buildDeltas();

        // add the deltas to the list of deltas created during this operation
        if (deltaBuilder.delta != null) {
          addDelta(deltaBuilder.delta);
        }
      }
      worked(1);
    } finally {
      done();
    }
  }
  private void createTryCatchStatement(org.eclipse.jdt.core.IBuffer buffer, String lineDelimiter)
      throws CoreException {
    List<Statement> result = new ArrayList<>(1);
    TryStatement tryStatement = getAST().newTryStatement();
    ITypeBinding[] exceptions = fAnalyzer.getExceptions();
    ImportRewriteContext context =
        new ContextSensitiveImportRewriteContext(
            fAnalyzer.getEnclosingBodyDeclaration(), fImportRewrite);

    if (!fIsMultiCatch) {
      for (int i = 0; i < exceptions.length; i++) {
        ITypeBinding exception = exceptions[i];
        CatchClause catchClause = getAST().newCatchClause();
        tryStatement.catchClauses().add(catchClause);
        SingleVariableDeclaration decl = getAST().newSingleVariableDeclaration();
        String varName = StubUtility.getExceptionVariableName(fCUnit.getJavaProject());

        String name = fScope.createName(varName, false);
        decl.setName(getAST().newSimpleName(name));
        Type type = fImportRewrite.addImport(exception, getAST(), context);
        decl.setType(type);
        catchClause.setException(decl);
        Statement st = getCatchBody(ASTNodes.getQualifiedTypeName(type), name, lineDelimiter);
        if (st != null) {
          catchClause.getBody().statements().add(st);
        }
        fLinkedProposalModel
            .getPositionGroup(GROUP_EXC_TYPE + i, true)
            .addPosition(fRewriter.track(decl.getType()), i == 0);
        fLinkedProposalModel
            .getPositionGroup(GROUP_EXC_NAME + i, true)
            .addPosition(fRewriter.track(decl.getName()), false);
      }
    } else {
      List<ITypeBinding> filteredExceptions = filterSubtypeExceptions(exceptions);
      CatchClause catchClause = getAST().newCatchClause();
      SingleVariableDeclaration decl = getAST().newSingleVariableDeclaration();
      String varName = StubUtility.getExceptionVariableName(fCUnit.getJavaProject());
      String name = fScope.createName(varName, false);
      decl.setName(getAST().newSimpleName(name));

      UnionType unionType = getAST().newUnionType();
      List<Type> types = unionType.types();
      int i = 0;
      for (ITypeBinding exception : filteredExceptions) {
        Type type = fImportRewrite.addImport(exception, getAST(), context);
        types.add(type);
        fLinkedProposalModel
            .getPositionGroup(GROUP_EXC_TYPE + i, true)
            .addPosition(fRewriter.track(type), i == 0);
        i++;
      }

      decl.setType(unionType);
      catchClause.setException(decl);
      fLinkedProposalModel
          .getPositionGroup(GROUP_EXC_NAME + 0, true)
          .addPosition(fRewriter.track(decl.getName()), false);
      Statement st = getCatchBody("Exception", name, lineDelimiter); // $NON-NLS-1$
      if (st != null) {
        catchClause.getBody().statements().add(st);
      }
      tryStatement.catchClauses().add(catchClause);
    }
    List<ASTNode> variableDeclarations = getSpecialVariableDeclarationStatements();
    ListRewrite statements =
        fRewriter.getListRewrite(tryStatement.getBody(), Block.STATEMENTS_PROPERTY);
    boolean selectedNodeRemoved = false;
    ASTNode expressionStatement = null;
    for (int i = 0; i < fSelectedNodes.length; i++) {
      ASTNode node = fSelectedNodes[i];
      if (node instanceof VariableDeclarationStatement && variableDeclarations.contains(node)) {
        AST ast = getAST();
        VariableDeclarationStatement statement = (VariableDeclarationStatement) node;
        // Create a copy and remove the initializer
        VariableDeclarationStatement copy =
            (VariableDeclarationStatement) ASTNode.copySubtree(ast, statement);
        List<IExtendedModifier> modifiers = copy.modifiers();
        for (Iterator<IExtendedModifier> iter = modifiers.iterator(); iter.hasNext(); ) {
          IExtendedModifier modifier = iter.next();
          if (modifier.isModifier()
              && Modifier.isFinal(((Modifier) modifier).getKeyword().toFlagValue())) {
            iter.remove();
          }
        }
        List<VariableDeclarationFragment> fragments = copy.fragments();
        for (Iterator<VariableDeclarationFragment> iter = fragments.iterator(); iter.hasNext(); ) {
          VariableDeclarationFragment fragment = iter.next();
          fragment.setInitializer(null);
        }
        CompilationUnit root = (CompilationUnit) statement.getRoot();
        int extendedStart = root.getExtendedStartPosition(statement);
        // we have a leading comment and the comment is covered by the selection
        if (extendedStart != statement.getStartPosition()
            && extendedStart >= fSelection.getOffset()) {
          String commentToken =
              buffer.getText(extendedStart, statement.getStartPosition() - extendedStart);
          commentToken = Strings.trimTrailingTabsAndSpaces(commentToken);
          Type type = statement.getType();
          String typeName = buffer.getText(type.getStartPosition(), type.getLength());
          copy.setType(
              (Type)
                  fRewriter.createStringPlaceholder(commentToken + typeName, type.getNodeType()));
        }
        result.add(copy);
        // convert the fragments into expression statements
        fragments = statement.fragments();
        if (!fragments.isEmpty()) {
          List<ExpressionStatement> newExpressionStatements = new ArrayList<>();
          for (Iterator<VariableDeclarationFragment> iter = fragments.iterator();
              iter.hasNext(); ) {
            VariableDeclarationFragment fragment = iter.next();
            Expression initializer = fragment.getInitializer();
            if (initializer != null) {
              Assignment assignment = ast.newAssignment();
              assignment.setLeftHandSide(
                  (Expression) fRewriter.createCopyTarget(fragment.getName()));
              assignment.setRightHandSide((Expression) fRewriter.createCopyTarget(initializer));
              newExpressionStatements.add(ast.newExpressionStatement(assignment));
            }
          }
          if (!newExpressionStatements.isEmpty()) {
            if (fSelectedNodes.length == 1) {
              expressionStatement =
                  fRewriter.createGroupNode(
                      newExpressionStatements.toArray(new ASTNode[newExpressionStatements.size()]));
            } else {
              fRewriter.replace(
                  statement,
                  fRewriter.createGroupNode(
                      newExpressionStatements.toArray(new ASTNode[newExpressionStatements.size()])),
                  null);
            }
          } else {
            fRewriter.remove(statement, null);
            selectedNodeRemoved = true;
          }
        } else {
          fRewriter.remove(statement, null);
          selectedNodeRemoved = true;
        }
      }
    }
    result.add(tryStatement);
    ASTNode replacementNode;
    if (result.size() == 1) {
      replacementNode = result.get(0);
    } else {
      replacementNode = fRewriter.createGroupNode(result.toArray(new ASTNode[result.size()]));
    }
    if (fSelectedNodes.length == 1) {
      ASTNode selectedNode = fSelectedNodes[0];

      if (selectedNode instanceof MethodReference) {
        MethodReference methodReference = (MethodReference) selectedNode;
        IMethodBinding functionalMethod =
            QuickAssistProcessor.getFunctionalMethodForMethodReference(methodReference);
        // functionalMethod is non-null and non-generic. See
        // ExceptionAnalyzer.handleMethodReference(MethodReference node).
        Assert.isTrue(functionalMethod != null && !functionalMethod.isGenericMethod());
        LambdaExpression lambda =
            QuickAssistProcessor.convertMethodRefernceToLambda(
                methodReference, functionalMethod, fRootNode, fRewriter, null, true);
        ASTNode statementInBlock = (ASTNode) ((Block) lambda.getBody()).statements().get(0);
        fRewriter.replace(statementInBlock, replacementNode, null);
        statements.insertLast(statementInBlock, null);
        return;
      }

      LambdaExpression enclosingLambda = ASTResolving.findEnclosingLambdaExpression(selectedNode);
      if (enclosingLambda != null
          && selectedNode.getLocationInParent() == LambdaExpression.BODY_PROPERTY
          && enclosingLambda.resolveMethodBinding() != null) {
        QuickAssistProcessor.changeLambdaBodyToBlock(enclosingLambda, getAST(), fRewriter);
        Block blockBody = (Block) fRewriter.get(enclosingLambda, LambdaExpression.BODY_PROPERTY);
        ASTNode statementInBlock = (ASTNode) blockBody.statements().get(0);
        fRewriter.replace(statementInBlock, replacementNode, null);
        statements.insertLast(statementInBlock, null);
        return;
      }

      if (expressionStatement != null) {
        statements.insertLast(expressionStatement, null);
      } else {
        if (!selectedNodeRemoved)
          statements.insertLast(fRewriter.createMoveTarget(selectedNode), null);
      }
      fRewriter.replace(selectedNode, replacementNode, null);
    } else {
      ListRewrite source =
          fRewriter.getListRewrite(
              fSelectedNodes[0].getParent(),
              (ChildListPropertyDescriptor) fSelectedNodes[0].getLocationInParent());
      ASTNode toMove =
          source.createMoveTarget(
              fSelectedNodes[0], fSelectedNodes[fSelectedNodes.length - 1], replacementNode, null);
      statements.insertLast(toMove, null);
    }
  }