pkg/analyzer/lib/src/dart/resolver/prefix_expression_resolver.dart - sdk.git - Git at Google

 // Copyright (c) 2020, 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:analyzer/dart/ast/ast.dart';
 import 'package:analyzer/dart/ast/token.dart';
 import 'package:analyzer/dart/element/element.dart';
 import 'package:analyzer/dart/element/type.dart';
 import 'package:analyzer/dart/element/type_provider.dart';
 import 'package:analyzer/error/listener.dart';
 import 'package:analyzer/src/dart/ast/ast.dart';
 import 'package:analyzer/src/dart/element/type.dart';
 import 'package:analyzer/src/dart/element/type_system.dart';
 import 'package:analyzer/src/dart/resolver/assignment_expression_resolver.dart';
 import 'package:analyzer/src/dart/resolver/invocation_inference_helper.dart';
 import 'package:analyzer/src/dart/resolver/type_property_resolver.dart';
 import 'package:analyzer/src/error/codes.dart';
 import 'package:analyzer/src/generated/resolver.dart';

 /// Helper for resolving [PrefixExpression]s.
 class PrefixExpressionResolver {
   final ResolverVisitor _resolver;
   final TypePropertyResolver _typePropertyResolver;
   final InvocationInferenceHelper _inferenceHelper;
   final AssignmentExpressionShared _assignmentShared;

   PrefixExpressionResolver({
     required ResolverVisitor resolver,
   })  : _resolver = resolver,
         _typePropertyResolver = resolver.typePropertyResolver,
         _inferenceHelper = resolver.inferenceHelper,
         _assignmentShared = AssignmentExpressionShared(
           resolver: resolver,
         );

   ErrorReporter get _errorReporter => _resolver.errorReporter;

   TypeProvider get _typeProvider => _resolver.typeProvider;

   TypeSystemImpl get _typeSystem => _resolver.typeSystem;

   void resolve(PrefixExpressionImpl node) {
     var operator = node.operator.type;

     if (operator == TokenType.BANG) {
       _resolveNegation(node);
       return;
     }

     if (operator.isIncrementOperator) {
       var operandResolution = _resolver.resolveForWrite(
         node: node.operand,
         hasRead: true,
       );

       var readElement = operandResolution.readElement;
       var writeElement = operandResolution.writeElement;

       var operand = node.operand;
       _resolver.setReadElement(operand, readElement);
       _resolver.setWriteElement(operand, writeElement);
       _resolver.migrationResolutionHooks
           ?.setCompoundAssignmentExpressionTypes(node);

       _assignmentShared.checkFinalAlreadyAssigned(node.operand);
     } else {
       node.operand.accept(_resolver);
     }

     _resolve1(node);
     _resolve2(node);
   }

   /// Check that the result [type] of a prefix or postfix `++` or `--`
   /// expression is assignable to the write type of the operand.
   ///
   /// TODO(scheglov) this is duplicate
   void _checkForInvalidAssignmentIncDec(
       PrefixExpressionImpl node, DartType type) {
     var operandWriteType = node.writeType!;
     if (!_typeSystem.isAssignableTo2(type, operandWriteType)) {
       _resolver.errorReporter.reportErrorForNode(
         CompileTimeErrorCode.INVALID_ASSIGNMENT,
         node,
         [type, operandWriteType],
       );
     }
   }

   /// Compute the static return type of the method or function represented by the given element.
   ///
   /// @param element the element representing the method or function invoked by the given node
   /// @return the static return type that was computed
   ///
   /// TODO(scheglov) this is duplicate
   DartType _computeStaticReturnType(Element? element) {
     if (element is PropertyAccessorElement) {
       //
       // This is a function invocation expression disguised as something else.
       // We are invoking a getter and then invoking the returned function.
       //
       var propertyType = element.type;
       return _resolver.inferenceHelper.computeInvokeReturnType(
         propertyType.returnType,
       );
     } else if (element is ExecutableElement) {
       return _resolver.inferenceHelper.computeInvokeReturnType(element.type);
     }
     return DynamicTypeImpl.instance;
   }

   /// Return the name of the method invoked by the given postfix [expression].
   String _getPrefixOperator(PrefixExpression expression) {
     var operator = expression.operator;
     var operatorType = operator.type;
     if (operatorType == TokenType.PLUS_PLUS) {
       return TokenType.PLUS.lexeme;
     } else if (operatorType == TokenType.MINUS_MINUS) {
       return TokenType.MINUS.lexeme;
     } else if (operatorType == TokenType.MINUS) {
       return "unary-";
     } else {
       return operator.lexeme;
     }
   }

   /// Record that the static type of the given node is the given type.
   ///
   /// @param expression the node whose type is to be recorded
   /// @param type the static type of the node
   ///
   /// TODO(scheglov) this is duplicate
   void _recordStaticType(Expression expression, DartType type) {
     _inferenceHelper.recordStaticType(expression, type);
   }

   void _resolve1(PrefixExpressionImpl node) {
     Token operator = node.operator;
     TokenType operatorType = operator.type;
     if (operatorType.isUserDefinableOperator ||
         operatorType.isIncrementOperator) {
       Expression operand = node.operand;
       String methodName = _getPrefixOperator(node);
       if (operand is ExtensionOverride) {
         var element = operand.extensionName.staticElement as ExtensionElement;
         var member = element.getMethod(methodName);
         if (member == null) {
           _errorReporter.reportErrorForToken(
               CompileTimeErrorCode.UNDEFINED_EXTENSION_OPERATOR,
               node.operator,
               [methodName, element.name]);
         }
         node.staticElement = member;
         return;
       }

       var readType = node.readType ?? operand.staticType!;
       if (identical(readType, NeverTypeImpl.instance)) {
         _resolver.errorReporter.reportErrorForNode(
           HintCode.RECEIVER_OF_TYPE_NEVER,
           operand,
         );
         return;
       }

       var result = _typePropertyResolver.resolve(
         receiver: operand,
         receiverType: readType,
         name: methodName,
         receiverErrorNode: operand,
         nameErrorEntity: operand,
       );
       node.staticElement = result.getter as MethodElement?;
       if (result.needsGetterError) {
         if (operand is SuperExpression) {
           _errorReporter.reportErrorForToken(
             CompileTimeErrorCode.UNDEFINED_SUPER_OPERATOR,
             operator,
             [methodName, readType],
           );
         } else {
           _errorReporter.reportErrorForToken(
             CompileTimeErrorCode.UNDEFINED_OPERATOR,
             operator,
             [methodName, readType],
           );
         }
       }
     }
   }

   void _resolve2(PrefixExpressionImpl node) {
     TokenType operator = node.operator.type;
     if (identical(node.readType, NeverTypeImpl.instance)) {
       _recordStaticType(node, NeverTypeImpl.instance);
     } else {
       // The other cases are equivalent to invoking a method.
       var staticMethodElement = node.staticElement;
       DartType staticType = _computeStaticReturnType(staticMethodElement);
       Expression operand = node.operand;
       if (operand is ExtensionOverride) {
         // No special handling for incremental operators.
       } else if (operator.isIncrementOperator) {
         if (node.readType!.isDartCoreInt) {
           staticType = _typeProvider.intType;
         } else {
           _checkForInvalidAssignmentIncDec(node, staticType);
         }
         if (operand is SimpleIdentifier) {
           var element = operand.staticElement;
           if (element is PromotableElement) {
             _resolver.flowAnalysis?.flow?.write(element, staticType, null);
           }
         }
       }
       _recordStaticType(node, staticType);
     }
     _resolver.nullShortingTermination(node);
   }

   void _resolveNegation(PrefixExpressionImpl node) {
     var operand = node.operand;
     InferenceContext.setType(operand, _typeProvider.boolType);

     operand.accept(_resolver);
     operand = node.operand;

     _resolver.boolExpressionVerifier.checkForNonBoolNegationExpression(operand);

     _recordStaticType(node, _typeProvider.boolType);

     _resolver.flowAnalysis?.flow?.logicalNot_end(node, operand);
   }
 }
	// Copyright (c) 2020, 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:analyzer/dart/ast/ast.dart';
	import 'package:analyzer/dart/ast/token.dart';
	import 'package:analyzer/dart/element/element.dart';
	import 'package:analyzer/dart/element/type.dart';
	import 'package:analyzer/dart/element/type_provider.dart';
	import 'package:analyzer/error/listener.dart';
	import 'package:analyzer/src/dart/ast/ast.dart';
	import 'package:analyzer/src/dart/element/type.dart';
	import 'package:analyzer/src/dart/element/type_system.dart';
	import 'package:analyzer/src/dart/resolver/assignment_expression_resolver.dart';
	import 'package:analyzer/src/dart/resolver/invocation_inference_helper.dart';
	import 'package:analyzer/src/dart/resolver/type_property_resolver.dart';
	import 'package:analyzer/src/error/codes.dart';
	import 'package:analyzer/src/generated/resolver.dart';

	/// Helper for resolving [PrefixExpression]s.
	class PrefixExpressionResolver {
	final ResolverVisitor _resolver;
	final TypePropertyResolver _typePropertyResolver;
	final InvocationInferenceHelper _inferenceHelper;
	final AssignmentExpressionShared _assignmentShared;

	PrefixExpressionResolver({
	required ResolverVisitor resolver,
	}) : _resolver = resolver,
	_typePropertyResolver = resolver.typePropertyResolver,
	_inferenceHelper = resolver.inferenceHelper,
	_assignmentShared = AssignmentExpressionShared(
	resolver: resolver,
	);

	ErrorReporter get _errorReporter => _resolver.errorReporter;

	TypeProvider get _typeProvider => _resolver.typeProvider;

	TypeSystemImpl get _typeSystem => _resolver.typeSystem;

	void resolve(PrefixExpressionImpl node) {
	var operator = node.operator.type;

	if (operator == TokenType.BANG) {
	_resolveNegation(node);
	return;
	}

	if (operator.isIncrementOperator) {
	var operandResolution = _resolver.resolveForWrite(
	node: node.operand,
	hasRead: true,
	);

	var readElement = operandResolution.readElement;
	var writeElement = operandResolution.writeElement;

	var operand = node.operand;
	_resolver.setReadElement(operand, readElement);
	_resolver.setWriteElement(operand, writeElement);
	_resolver.migrationResolutionHooks
	?.setCompoundAssignmentExpressionTypes(node);

	_assignmentShared.checkFinalAlreadyAssigned(node.operand);
	} else {
	node.operand.accept(_resolver);
	}

	_resolve1(node);
	_resolve2(node);
	}

	/// Check that the result [type] of a prefix or postfix `++` or `--`
	/// expression is assignable to the write type of the operand.
	///
	/// TODO(scheglov) this is duplicate
	void _checkForInvalidAssignmentIncDec(
	PrefixExpressionImpl node, DartType type) {
	var operandWriteType = node.writeType!;
	if (!_typeSystem.isAssignableTo2(type, operandWriteType)) {
	_resolver.errorReporter.reportErrorForNode(
	CompileTimeErrorCode.INVALID_ASSIGNMENT,
	node,
	[type, operandWriteType],
	);
	}
	}

	/// Compute the static return type of the method or function represented by the given element.
	///
	/// @param element the element representing the method or function invoked by the given node
	/// @return the static return type that was computed
	///
	/// TODO(scheglov) this is duplicate
	DartType _computeStaticReturnType(Element? element) {
	if (element is PropertyAccessorElement) {
	//
	// This is a function invocation expression disguised as something else.
	// We are invoking a getter and then invoking the returned function.
	//
	var propertyType = element.type;
	return _resolver.inferenceHelper.computeInvokeReturnType(
	propertyType.returnType,
	);
	} else if (element is ExecutableElement) {
	return _resolver.inferenceHelper.computeInvokeReturnType(element.type);
	}
	return DynamicTypeImpl.instance;
	}

	/// Return the name of the method invoked by the given postfix [expression].
	String _getPrefixOperator(PrefixExpression expression) {
	var operator = expression.operator;
	var operatorType = operator.type;
	if (operatorType == TokenType.PLUS_PLUS) {
	return TokenType.PLUS.lexeme;
	} else if (operatorType == TokenType.MINUS_MINUS) {
	return TokenType.MINUS.lexeme;
	} else if (operatorType == TokenType.MINUS) {
	return "unary-";
	} else {
	return operator.lexeme;
	}
	}

	/// Record that the static type of the given node is the given type.
	///
	/// @param expression the node whose type is to be recorded
	/// @param type the static type of the node
	///
	/// TODO(scheglov) this is duplicate
	void _recordStaticType(Expression expression, DartType type) {
	_inferenceHelper.recordStaticType(expression, type);
	}

	void _resolve1(PrefixExpressionImpl node) {
	Token operator = node.operator;
	TokenType operatorType = operator.type;
	if (operatorType.isUserDefinableOperator \|\|
	operatorType.isIncrementOperator) {
	Expression operand = node.operand;
	String methodName = _getPrefixOperator(node);
	if (operand is ExtensionOverride) {
	var element = operand.extensionName.staticElement as ExtensionElement;
	var member = element.getMethod(methodName);
	if (member == null) {
	_errorReporter.reportErrorForToken(
	CompileTimeErrorCode.UNDEFINED_EXTENSION_OPERATOR,
	node.operator,
	[methodName, element.name]);
	}
	node.staticElement = member;
	return;
	}

	var readType = node.readType ?? operand.staticType!;
	if (identical(readType, NeverTypeImpl.instance)) {
	_resolver.errorReporter.reportErrorForNode(
	HintCode.RECEIVER_OF_TYPE_NEVER,
	operand,
	);
	return;
	}

	var result = _typePropertyResolver.resolve(
	receiver: operand,
	receiverType: readType,
	name: methodName,
	receiverErrorNode: operand,
	nameErrorEntity: operand,
	);
	node.staticElement = result.getter as MethodElement?;
	if (result.needsGetterError) {
	if (operand is SuperExpression) {
	_errorReporter.reportErrorForToken(
	CompileTimeErrorCode.UNDEFINED_SUPER_OPERATOR,
	operator,
	[methodName, readType],
	);
	} else {
	_errorReporter.reportErrorForToken(
	CompileTimeErrorCode.UNDEFINED_OPERATOR,
	operator,
	[methodName, readType],
	);
	}
	}
	}
	}

	void _resolve2(PrefixExpressionImpl node) {
	TokenType operator = node.operator.type;
	if (identical(node.readType, NeverTypeImpl.instance)) {
	_recordStaticType(node, NeverTypeImpl.instance);
	} else {
	// The other cases are equivalent to invoking a method.
	var staticMethodElement = node.staticElement;
	DartType staticType = _computeStaticReturnType(staticMethodElement);
	Expression operand = node.operand;
	if (operand is ExtensionOverride) {
	// No special handling for incremental operators.
	} else if (operator.isIncrementOperator) {
	if (node.readType!.isDartCoreInt) {
	staticType = _typeProvider.intType;
	} else {
	_checkForInvalidAssignmentIncDec(node, staticType);
	}
	if (operand is SimpleIdentifier) {
	var element = operand.staticElement;
	if (element is PromotableElement) {
	_resolver.flowAnalysis?.flow?.write(element, staticType, null);
	}
	}
	}
	_recordStaticType(node, staticType);
	}
	_resolver.nullShortingTermination(node);
	}

	void _resolveNegation(PrefixExpressionImpl node) {
	var operand = node.operand;
	InferenceContext.setType(operand, _typeProvider.boolType);

	operand.accept(_resolver);
	operand = node.operand;

	_resolver.boolExpressionVerifier.checkForNonBoolNegationExpression(operand);

	_recordStaticType(node, _typeProvider.boolType);

	_resolver.flowAnalysis?.flow?.logicalNot_end(node, operand);
	}
	}