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

 // Copyright (c) 2021, 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/element/element.dart';
 import 'package:analyzer/dart/element/type.dart';
 import 'package:analyzer/src/dart/ast/ast.dart';
 import 'package:analyzer/src/dart/element/member.dart';
 import 'package:analyzer/src/dart/element/type.dart';
 import 'package:analyzer/src/error/codes.dart';
 import 'package:analyzer/src/generated/resolver.dart';

 /// A resolver for [ConstructorReference] nodes.
 class ConstructorReferenceResolver {
   /// The resolver driving this participant.
   final ResolverVisitor _resolver;

   ConstructorReferenceResolver(this._resolver);

   void resolve(ConstructorReferenceImpl node,
       {required DartType? contextType}) {
     if (!_resolver.isConstructorTearoffsEnabled &&
         node.constructorName.type.typeArguments == null) {
       // Only report this if [node] has no explicit type arguments; otherwise
       // the parser has already reported an error.
       _resolver.errorReporter.reportErrorForNode(
           HintCode.SDK_VERSION_CONSTRUCTOR_TEAROFFS, node, []);
     }
     node.constructorName.accept(_resolver);
     var element = node.constructorName.staticElement;
     if (element != null &&
         !element.isFactory &&
         element.enclosingElement.isAbstract) {
       _resolver.errorReporter.reportErrorForNode(
         CompileTimeErrorCode
             .TEAROFF_OF_GENERATIVE_CONSTRUCTOR_OF_ABSTRACT_CLASS,
         node,
         [],
       );
     }
     var name = node.constructorName.name;
     if (element == null &&
         name != null &&
         _resolver.isConstructorTearoffsEnabled) {
       // The illegal construction, which looks like a type-instantiated
       // constructor tearoff, may be an attempt to reference a member on
       // [enclosingElement]. Try to provide a helpful error, and fall back to
       // "unknown constructor."
       //
       // Only report errors when the constructor tearoff feature is enabled,
       // to avoid reporting redundant errors.
       var enclosingElement = node.constructorName.type.name.staticElement;
       if (enclosingElement is TypeAliasElement) {
         enclosingElement = enclosingElement.aliasedType.element;
       }
       // TODO(srawlins): Handle `enclosingElement` being a function typedef:
       // typedef F<T> = void Function(); var a = F<int>.extensionOnType;`.
       // This is illegal.
       if (enclosingElement is ClassElement) {
         var method = enclosingElement.getMethod(name.name) ??
             enclosingElement.getGetter(name.name) ??
             enclosingElement.getSetter(name.name);
         if (method != null) {
           var error = method.isStatic
               ? CompileTimeErrorCode.CLASS_INSTANTIATION_ACCESS_TO_STATIC_MEMBER
               : CompileTimeErrorCode
                   .CLASS_INSTANTIATION_ACCESS_TO_INSTANCE_MEMBER;
           _resolver.errorReporter.reportErrorForNode(
             error,
             node,
             [name.name],
           );
         } else if (!name.isSynthetic) {
           _resolver.errorReporter.reportErrorForNode(
             CompileTimeErrorCode.CLASS_INSTANTIATION_ACCESS_TO_UNKNOWN_MEMBER,
             node,
             [enclosingElement.name, name.name],
           );
         }
       }
     }
     _inferArgumentTypes(node, contextType: contextType);
   }

   void _inferArgumentTypes(ConstructorReferenceImpl node,
       {required DartType? contextType}) {
     var constructorName = node.constructorName;
     var elementToInfer = _resolver.inferenceHelper.constructorElementToInfer(
       constructorName: constructorName,
       definingLibrary: _resolver.definingLibrary,
     );

     // If the constructor is generic, we'll have a ConstructorMember that
     // substitutes in type arguments (possibly `dynamic`) from earlier in
     // resolution.
     //
     // Otherwise we'll have a ConstructorElement, and we can skip inference
     // because there's nothing to infer in a non-generic type.
     if (elementToInfer != null) {
       // TODO(leafp): Currently, we may re-infer types here, since we
       // sometimes resolve multiple times.  We should really check that we
       // have not already inferred something.  However, the obvious ways to
       // check this don't work, since we may have been instantiated
       // to bounds in an earlier phase, and we *do* want to do inference
       // in that case.

       // Get back to the uninstantiated generic constructor.
       // TODO(jmesserly): should we store this earlier in resolution?
       // Or look it up, instead of jumping backwards through the Member?
       var rawElement = elementToInfer.element;
       var constructorType = elementToInfer.asType;

       var inferred = _resolver.inferenceHelper.inferTearOff(
           node, constructorName.name!, constructorType,
           contextType: contextType) as FunctionType?;

       if (inferred != null) {
         var inferredReturnType = inferred.returnType as InterfaceType;

         // Update the static element as well. This is used in some cases, such
         // as computing constant values. It is stored in two places.
         var constructorElement =
             ConstructorMember.from(rawElement, inferredReturnType);

         constructorName.staticElement = constructorElement.declaration;
         constructorName.name?.staticElement = constructorElement.declaration;
         node.staticType = inferred;
         // The NamedType child of `constructorName` doesn't have a static type.
         constructorName.type.type = null;
       }
     } else {
       var constructorElement = constructorName.staticElement;
       if (constructorElement == null) {
         node.staticType = DynamicTypeImpl.instance;
       } else {
         node.staticType = constructorElement.type;
       }
       // The NamedType child of `constructorName` doesn't have a static type.
       constructorName.type.type = null;
     }
   }
 }
	// Copyright (c) 2021, 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/element/element.dart';
	import 'package:analyzer/dart/element/type.dart';
	import 'package:analyzer/src/dart/ast/ast.dart';
	import 'package:analyzer/src/dart/element/member.dart';
	import 'package:analyzer/src/dart/element/type.dart';
	import 'package:analyzer/src/error/codes.dart';
	import 'package:analyzer/src/generated/resolver.dart';

	/// A resolver for [ConstructorReference] nodes.
	class ConstructorReferenceResolver {
	/// The resolver driving this participant.
	final ResolverVisitor _resolver;

	ConstructorReferenceResolver(this._resolver);

	void resolve(ConstructorReferenceImpl node,
	{required DartType? contextType}) {
	if (!_resolver.isConstructorTearoffsEnabled &&
	node.constructorName.type.typeArguments == null) {
	// Only report this if [node] has no explicit type arguments; otherwise
	// the parser has already reported an error.
	_resolver.errorReporter.reportErrorForNode(
	HintCode.SDK_VERSION_CONSTRUCTOR_TEAROFFS, node, []);
	}
	node.constructorName.accept(_resolver);
	var element = node.constructorName.staticElement;
	if (element != null &&
	!element.isFactory &&
	element.enclosingElement.isAbstract) {
	_resolver.errorReporter.reportErrorForNode(
	CompileTimeErrorCode
	.TEAROFF_OF_GENERATIVE_CONSTRUCTOR_OF_ABSTRACT_CLASS,
	node,
	[],
	);
	}
	var name = node.constructorName.name;
	if (element == null &&
	name != null &&
	_resolver.isConstructorTearoffsEnabled) {
	// The illegal construction, which looks like a type-instantiated
	// constructor tearoff, may be an attempt to reference a member on
	// [enclosingElement]. Try to provide a helpful error, and fall back to
	// "unknown constructor."
	//
	// Only report errors when the constructor tearoff feature is enabled,
	// to avoid reporting redundant errors.
	var enclosingElement = node.constructorName.type.name.staticElement;
	if (enclosingElement is TypeAliasElement) {
	enclosingElement = enclosingElement.aliasedType.element;
	}
	// TODO(srawlins): Handle `enclosingElement` being a function typedef:
	// typedef F<T> = void Function(); var a = F<int>.extensionOnType;`.
	// This is illegal.
	if (enclosingElement is ClassElement) {
	var method = enclosingElement.getMethod(name.name) ??
	enclosingElement.getGetter(name.name) ??
	enclosingElement.getSetter(name.name);
	if (method != null) {
	var error = method.isStatic
	? CompileTimeErrorCode.CLASS_INSTANTIATION_ACCESS_TO_STATIC_MEMBER
	: CompileTimeErrorCode
	.CLASS_INSTANTIATION_ACCESS_TO_INSTANCE_MEMBER;
	_resolver.errorReporter.reportErrorForNode(
	error,
	node,
	[name.name],
	);
	} else if (!name.isSynthetic) {
	_resolver.errorReporter.reportErrorForNode(
	CompileTimeErrorCode.CLASS_INSTANTIATION_ACCESS_TO_UNKNOWN_MEMBER,
	node,
	[enclosingElement.name, name.name],
	);
	}
	}
	}
	_inferArgumentTypes(node, contextType: contextType);
	}

	void _inferArgumentTypes(ConstructorReferenceImpl node,
	{required DartType? contextType}) {
	var constructorName = node.constructorName;
	var elementToInfer = _resolver.inferenceHelper.constructorElementToInfer(
	constructorName: constructorName,
	definingLibrary: _resolver.definingLibrary,
	);

	// If the constructor is generic, we'll have a ConstructorMember that
	// substitutes in type arguments (possibly `dynamic`) from earlier in
	// resolution.
	//
	// Otherwise we'll have a ConstructorElement, and we can skip inference
	// because there's nothing to infer in a non-generic type.
	if (elementToInfer != null) {
	// TODO(leafp): Currently, we may re-infer types here, since we
	// sometimes resolve multiple times. We should really check that we
	// have not already inferred something. However, the obvious ways to
	// check this don't work, since we may have been instantiated
	// to bounds in an earlier phase, and we do want to do inference
	// in that case.

	// Get back to the uninstantiated generic constructor.
	// TODO(jmesserly): should we store this earlier in resolution?
	// Or look it up, instead of jumping backwards through the Member?
	var rawElement = elementToInfer.element;
	var constructorType = elementToInfer.asType;

	var inferred = _resolver.inferenceHelper.inferTearOff(
	node, constructorName.name!, constructorType,
	contextType: contextType) as FunctionType?;

	if (inferred != null) {
	var inferredReturnType = inferred.returnType as InterfaceType;

	// Update the static element as well. This is used in some cases, such
	// as computing constant values. It is stored in two places.
	var constructorElement =
	ConstructorMember.from(rawElement, inferredReturnType);

	constructorName.staticElement = constructorElement.declaration;
	constructorName.name?.staticElement = constructorElement.declaration;
	node.staticType = inferred;
	// The NamedType child of `constructorName` doesn't have a static type.
	constructorName.type.type = null;
	}
	} else {
	var constructorElement = constructorName.staticElement;
	if (constructorElement == null) {
	node.staticType = DynamicTypeImpl.instance;
	} else {
	node.staticType = constructorElement.type;
	}
	// The NamedType child of `constructorName` doesn't have a static type.
	constructorName.type.type = null;
	}
	}
	}