pkg/analysis_server/lib/src/services/refactoring/inline_local.dart - sdk.git - Git at Google

 // Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 import 'package:analysis_server/src/protocol_server.dart' hide Element;
 import 'package:analysis_server/src/services/correction/status.dart';
 import 'package:analysis_server/src/services/correction/util.dart';
 import 'package:analysis_server/src/services/refactoring/refactoring.dart';
 import 'package:analysis_server/src/services/refactoring/refactoring_internal.dart';
 import 'package:analysis_server/src/services/search/search_engine.dart';
 import 'package:analyzer/dart/analysis/results.dart';
 import 'package:analyzer/dart/ast/ast.dart';
 import 'package:analyzer/dart/ast/token.dart';
 import 'package:analyzer/dart/element/element.dart';
 import 'package:analyzer/src/dart/analysis/session_helper.dart';
 import 'package:analyzer/src/dart/ast/utilities.dart';
 import 'package:analyzer/src/generated/java_core.dart';
 import 'package:analyzer_plugin/utilities/range_factory.dart';

 /// [InlineLocalRefactoring] implementation.
 class InlineLocalRefactoringImpl extends RefactoringImpl
     implements InlineLocalRefactoring {
   final SearchEngine searchEngine;
   final ResolvedUnitResult resolveResult;
   final int offset;
   final CorrectionUtils utils;

   _InitialState? _initialState;

   InlineLocalRefactoringImpl(this.searchEngine, this.resolveResult, this.offset)
       : utils = CorrectionUtils(resolveResult);

   @override
   String get refactoringName => 'Inline Local Variable';

   @override
   int get referenceCount {
     return _initialState?.references.length ?? 0;
   }

   @override
   String? get variableName {
     return _initialState?.element.name;
   }

   @override
   Future<RefactoringStatus> checkFinalConditions() {
     var result = RefactoringStatus();
     return Future.value(result);
   }

   @override
   Future<RefactoringStatus> checkInitialConditions() async {
     // prepare variable
     var offsetNode = NodeLocator(offset).searchWithin(resolveResult.unit);
     if (offsetNode is! SimpleIdentifier) {
       return _noLocalVariableStatus();
     }

     var element = offsetNode.staticElement;
     if (element is! LocalVariableElement) {
       return _noLocalVariableStatus();
     }

     var helper = AnalysisSessionHelper(resolveResult.session);
     var declarationResult = await helper.getElementDeclaration(element);
     var node = declarationResult?.node;
     if (node is! VariableDeclaration) {
       return _noLocalVariableStatus();
     }
     // validate node declaration
     var declarationStatement = _declarationStatement(node);
     if (declarationStatement == null) {
       return _noLocalVariableStatus();
     }
     // should have initializer at declaration
     var initializer = node.initializer;
     if (initializer == null) {
       var message = format(
         "Local variable '{0}' is not initialized at declaration.",
         element.displayName,
       );
       return RefactoringStatus.fatal(
         message,
         newLocation_fromNode(node),
       );
     }
     // prepare references
     var references = await searchEngine.searchReferences(element);
     // should not have assignments
     for (var reference in references) {
       if (reference.kind != MatchKind.READ) {
         var message = format(
           "Local variable '{0}' is assigned more than once.",
           [element.displayName],
         );
         return RefactoringStatus.fatal(
           message,
           newLocation_fromMatch(reference),
         );
       }
     }
     // done
     _initialState = _InitialState(
       element: element,
       node: node,
       initializer: initializer,
       declarationStatement: declarationStatement,
       references: references,
     );
     return RefactoringStatus();
   }

   @override
   Future<SourceChange> createChange() {
     var change = SourceChange(refactoringName);
     var unitElement = resolveResult.unit!.declaredElement!;
     var state = _initialState!;
     // remove declaration
     {
       var range = utils.getLinesRangeStatements([(state.declarationStatement)]);
       doSourceChange_addElementEdit(
           change, unitElement, newSourceEdit_range(range, ''));
     }
     // prepare initializer
     var initializer = state.initializer;
     var initializerCode = utils.getNodeText(initializer);
     // replace references
     for (var reference in state.references) {
       var editRange = reference.sourceRange;
       // prepare context
       var offset = editRange.offset;
       var node = utils.findNode(offset)!;
       var parent = node.parent;
       // prepare code
       String codeForReference;
       if (parent is InterpolationExpression) {
         var target = parent.parent;
         if (target is StringInterpolation &&
             initializer is SingleStringLiteral &&
             !initializer.isRaw &&
             initializer.isSingleQuoted == target.isSingleQuoted &&
             (!initializer.isMultiline || target.isMultiline)) {
           editRange = range.node(parent);
           // unwrap the literal being inlined
           var initOffset = initializer.contentsOffset;
           var initLength = initializer.contentsEnd - initOffset;
           codeForReference = utils.getText(initOffset, initLength);
         } else if (_shouldBeExpressionInterpolation(parent, initializer)) {
           codeForReference = '{$initializerCode}';
         } else {
           codeForReference = initializerCode;
         }
       } else if (_shouldUseParenthesis(initializer, node)) {
         codeForReference = '($initializerCode)';
       } else {
         codeForReference = initializerCode;
       }
       // do replace
       doSourceChange_addElementEdit(change, unitElement,
           newSourceEdit_range(editRange, codeForReference));
     }
     // done
     return Future.value(change);
   }

   @override
   bool isAvailable() {
     return !_checkOffset().hasFatalError;
   }

   /// Checks if [offset] is a variable that can be inlined.
   RefactoringStatus _checkOffset() {
     var offsetNode = NodeLocator(offset).searchWithin(resolveResult.unit);
     if (offsetNode is! SimpleIdentifier) {
       return _noLocalVariableStatus();
     }

     var element = offsetNode.staticElement;
     if (element is! LocalVariableElement) {
       return _noLocalVariableStatus();
     }

     return RefactoringStatus();
   }

   RefactoringStatus _noLocalVariableStatus() {
     return RefactoringStatus.fatal(
       'Local variable declaration or reference must be selected '
       'to activate this refactoring.',
     );
   }

   static VariableDeclarationStatement? _declarationStatement(
     VariableDeclaration declaration,
   ) {
     var declarationList = declaration.parent;
     if (declarationList is VariableDeclarationList) {
       var statement = declarationList.parent;
       if (statement is VariableDeclarationStatement) {
         var parent = statement.parent;
         if (parent is Block || parent is SwitchCase) {
           return statement;
         }
       }
     }
     return null;
   }

   static bool _shouldBeExpressionInterpolation(
       InterpolationExpression target, Expression expression) {
     var targetType = target.beginToken.type;
     return targetType == TokenType.STRING_INTERPOLATION_IDENTIFIER &&
         expression is! SimpleIdentifier;
   }

   static bool _shouldUseParenthesis(Expression init, AstNode node) {
     // check precedence
     var initPrecedence = getExpressionPrecedence(init);
     if (initPrecedence < getExpressionParentPrecedence(node)) {
       return true;
     }
     // special case for '-'
     var parent = node.parent;
     if (init is PrefixExpression && parent is PrefixExpression) {
       if (parent.operator.type == TokenType.MINUS) {
         var initializerOperator = init.operator.type;
         if (initializerOperator == TokenType.MINUS ||
             initializerOperator == TokenType.MINUS_MINUS) {
           return true;
         }
       }
     }
     // no () is needed
     return false;
   }
 }

 class _InitialState {
   final LocalVariableElement element;
   final VariableDeclaration node;
   final Expression initializer;
   final VariableDeclarationStatement declarationStatement;
   final List<SearchMatch> references;

   _InitialState({
     required this.element,
     required this.node,
     required this.initializer,
     required this.declarationStatement,
     required this.references,
   });
 }
	// Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	import 'package:analysis_server/src/protocol_server.dart' hide Element;
	import 'package:analysis_server/src/services/correction/status.dart';
	import 'package:analysis_server/src/services/correction/util.dart';
	import 'package:analysis_server/src/services/refactoring/refactoring.dart';
	import 'package:analysis_server/src/services/refactoring/refactoring_internal.dart';
	import 'package:analysis_server/src/services/search/search_engine.dart';
	import 'package:analyzer/dart/analysis/results.dart';
	import 'package:analyzer/dart/ast/ast.dart';
	import 'package:analyzer/dart/ast/token.dart';
	import 'package:analyzer/dart/element/element.dart';
	import 'package:analyzer/src/dart/analysis/session_helper.dart';
	import 'package:analyzer/src/dart/ast/utilities.dart';
	import 'package:analyzer/src/generated/java_core.dart';
	import 'package:analyzer_plugin/utilities/range_factory.dart';

	/// [InlineLocalRefactoring] implementation.
	class InlineLocalRefactoringImpl extends RefactoringImpl
	implements InlineLocalRefactoring {
	final SearchEngine searchEngine;
	final ResolvedUnitResult resolveResult;
	final int offset;
	final CorrectionUtils utils;

	_InitialState? _initialState;

	InlineLocalRefactoringImpl(this.searchEngine, this.resolveResult, this.offset)
	: utils = CorrectionUtils(resolveResult);

	@override
	String get refactoringName => 'Inline Local Variable';

	@override
	int get referenceCount {
	return _initialState?.references.length ?? 0;
	}

	@override
	String? get variableName {
	return _initialState?.element.name;
	}

	@override
	Future<RefactoringStatus> checkFinalConditions() {
	var result = RefactoringStatus();
	return Future.value(result);
	}

	@override
	Future<RefactoringStatus> checkInitialConditions() async {
	// prepare variable
	var offsetNode = NodeLocator(offset).searchWithin(resolveResult.unit);
	if (offsetNode is! SimpleIdentifier) {
	return _noLocalVariableStatus();
	}

	var element = offsetNode.staticElement;
	if (element is! LocalVariableElement) {
	return _noLocalVariableStatus();
	}

	var helper = AnalysisSessionHelper(resolveResult.session);
	var declarationResult = await helper.getElementDeclaration(element);
	var node = declarationResult?.node;
	if (node is! VariableDeclaration) {
	return _noLocalVariableStatus();
	}
	// validate node declaration
	var declarationStatement = _declarationStatement(node);
	if (declarationStatement == null) {
	return _noLocalVariableStatus();
	}
	// should have initializer at declaration
	var initializer = node.initializer;
	if (initializer == null) {
	var message = format(
	"Local variable '{0}' is not initialized at declaration.",
	element.displayName,
	);
	return RefactoringStatus.fatal(
	message,
	newLocation_fromNode(node),
	);
	}
	// prepare references
	var references = await searchEngine.searchReferences(element);
	// should not have assignments
	for (var reference in references) {
	if (reference.kind != MatchKind.READ) {
	var message = format(
	"Local variable '{0}' is assigned more than once.",
	[element.displayName],
	);
	return RefactoringStatus.fatal(
	message,
	newLocation_fromMatch(reference),
	);
	}
	}
	// done
	_initialState = _InitialState(
	element: element,
	node: node,
	initializer: initializer,
	declarationStatement: declarationStatement,
	references: references,
	);
	return RefactoringStatus();
	}

	@override
	Future<SourceChange> createChange() {
	var change = SourceChange(refactoringName);
	var unitElement = resolveResult.unit!.declaredElement!;
	var state = _initialState!;
	// remove declaration
	{
	var range = utils.getLinesRangeStatements([(state.declarationStatement)]);
	doSourceChange_addElementEdit(
	change, unitElement, newSourceEdit_range(range, ''));
	}
	// prepare initializer
	var initializer = state.initializer;
	var initializerCode = utils.getNodeText(initializer);
	// replace references
	for (var reference in state.references) {
	var editRange = reference.sourceRange;
	// prepare context
	var offset = editRange.offset;
	var node = utils.findNode(offset)!;
	var parent = node.parent;
	// prepare code
	String codeForReference;
	if (parent is InterpolationExpression) {
	var target = parent.parent;
	if (target is StringInterpolation &&
	initializer is SingleStringLiteral &&
	!initializer.isRaw &&
	initializer.isSingleQuoted == target.isSingleQuoted &&
	(!initializer.isMultiline \|\| target.isMultiline)) {
	editRange = range.node(parent);
	// unwrap the literal being inlined
	var initOffset = initializer.contentsOffset;
	var initLength = initializer.contentsEnd - initOffset;
	codeForReference = utils.getText(initOffset, initLength);
	} else if (_shouldBeExpressionInterpolation(parent, initializer)) {
	codeForReference = '{$initializerCode}';
	} else {
	codeForReference = initializerCode;
	}
	} else if (_shouldUseParenthesis(initializer, node)) {
	codeForReference = '($initializerCode)';
	} else {
	codeForReference = initializerCode;
	}
	// do replace
	doSourceChange_addElementEdit(change, unitElement,
	newSourceEdit_range(editRange, codeForReference));
	}
	// done
	return Future.value(change);
	}

	@override
	bool isAvailable() {
	return !_checkOffset().hasFatalError;
	}

	/// Checks if [offset] is a variable that can be inlined.
	RefactoringStatus _checkOffset() {
	var offsetNode = NodeLocator(offset).searchWithin(resolveResult.unit);
	if (offsetNode is! SimpleIdentifier) {
	return _noLocalVariableStatus();
	}

	var element = offsetNode.staticElement;
	if (element is! LocalVariableElement) {
	return _noLocalVariableStatus();
	}

	return RefactoringStatus();
	}

	RefactoringStatus _noLocalVariableStatus() {
	return RefactoringStatus.fatal(
	'Local variable declaration or reference must be selected '
	'to activate this refactoring.',
	);
	}

	static VariableDeclarationStatement? _declarationStatement(
	VariableDeclaration declaration,
	) {
	var declarationList = declaration.parent;
	if (declarationList is VariableDeclarationList) {
	var statement = declarationList.parent;
	if (statement is VariableDeclarationStatement) {
	var parent = statement.parent;
	if (parent is Block \|\| parent is SwitchCase) {
	return statement;
	}
	}
	}
	return null;
	}

	static bool _shouldBeExpressionInterpolation(
	InterpolationExpression target, Expression expression) {
	var targetType = target.beginToken.type;
	return targetType == TokenType.STRING_INTERPOLATION_IDENTIFIER &&
	expression is! SimpleIdentifier;
	}

	static bool _shouldUseParenthesis(Expression init, AstNode node) {
	// check precedence
	var initPrecedence = getExpressionPrecedence(init);
	if (initPrecedence < getExpressionParentPrecedence(node)) {
	return true;
	}
	// special case for '-'
	var parent = node.parent;
	if (init is PrefixExpression && parent is PrefixExpression) {
	if (parent.operator.type == TokenType.MINUS) {
	var initializerOperator = init.operator.type;
	if (initializerOperator == TokenType.MINUS \|\|
	initializerOperator == TokenType.MINUS_MINUS) {
	return true;
	}
	}
	}
	// no () is needed
	return false;
	}
	}

	class _InitialState {
	final LocalVariableElement element;
	final VariableDeclaration node;
	final Expression initializer;
	final VariableDeclarationStatement declarationStatement;
	final List<SearchMatch> references;

	_InitialState({
	required this.element,
	required this.node,
	required this.initializer,
	required this.declarationStatement,
	required this.references,
	});
	}