pkg/analyzer/lib/src/summary2/named_type_builder.dart - sdk - Git at Google

 // Copyright (c) 2019, 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/element/element.dart';
 import 'package:analyzer/src/dart/element/type.dart';
 import 'package:analyzer/src/dart/element/type_algebra.dart';
 import 'package:analyzer/src/summary2/type_builder.dart';

 /// The type builder for a [TypeName].
 class NamedTypeBuilder extends TypeBuilder {
   static DynamicTypeImpl get _dynamicType => DynamicTypeImpl.instance;

   final Element element;
   final List<DartType> arguments;
   final NullabilitySuffix nullabilitySuffix;

   /// The node for which this builder is created, or `null` if the builder
   /// was detached from its node, e.g. during computing default types for
   /// type parameters.
   final TypeName node;

   /// The actual built type, not a [TypeBuilder] anymore.
   ///
   /// When [build] is called, the type is built, stored into this field,
   /// and set for the [node].
   DartType _type;

   NamedTypeBuilder(this.element, this.arguments, this.nullabilitySuffix,
       {this.node});

   factory NamedTypeBuilder.of(
     TypeName node,
     Element element,
     NullabilitySuffix nullabilitySuffix,
   ) {
     List<DartType> arguments;
     var argumentList = node.typeArguments;
     if (argumentList != null) {
       arguments = argumentList.arguments.map((n) => n.type).toList();
     } else {
       arguments = <DartType>[];
     }

     return NamedTypeBuilder(element, arguments, nullabilitySuffix, node: node);
   }

   @override
   DartType build() {
     if (_type != null) {
       return _type;
     }

     var element = this.element;
     if (element is ClassElement) {
       var parameters = element.typeParameters;
       if (parameters.isEmpty) {
         var rawType = element.type;
         _type = (rawType as TypeImpl).withNullability(nullabilitySuffix);
       } else {
         var arguments = _buildArguments(parameters);
         _type = InterfaceTypeImpl.explicit(
           element,
           arguments,
           nullabilitySuffix: nullabilitySuffix,
         );
       }
     } else if (element is GenericTypeAliasElement) {
       // Break a possible recursion.
       _type = _dynamicType;

       var rawType = _getRawFunctionType(element);

       var parameters = element.typeParameters;
       if (parameters.isEmpty) {
         _type = rawType;
       } else {
         var arguments = _buildArguments(parameters);
         var substitution = Substitution.fromPairs(parameters, arguments);
         _type = substitution.substituteType(rawType);
       }
     } else if (element is TypeParameterElement) {
       _type = TypeParameterTypeImpl(element);
     } else {
       _type = _dynamicType;
     }

     node?.type = _type;
     return _type;
   }

   @override
   String toString() {
     var buffer = StringBuffer();
     buffer.write(element.displayName);
     if (arguments.isNotEmpty) {
       buffer.write('<');
       buffer.write(arguments.join(', '));
       buffer.write('>');
     }
     return buffer.toString();
   }

   /// Build arguments that correspond to the type [parameters].
   List<DartType> _buildArguments(List<TypeParameterElement> parameters) {
     if (arguments.isNotEmpty) {
       if (arguments.length == parameters.length) {
         var result = List<DartType>(parameters.length);
         for (int i = 0; i < result.length; ++i) {
           var type = arguments[i];
           result[i] = _buildType(type);
         }
         return result;
       } else {
         return _listOfDynamic(parameters.length);
       }
     } else {
       var result = List<DartType>(parameters.length);
       for (int i = 0; i < result.length; ++i) {
         TypeParameterElementImpl parameter = parameters[i];
         var defaultType = parameter.defaultType;
         defaultType = _buildType(defaultType);
         result[i] = defaultType;
       }
       return result;
     }
   }

   DartType _buildFormalParameterType(FormalParameter node) {
     if (node is DefaultFormalParameter) {
       return _buildFormalParameterType(node.parameter);
     } else if (node is FunctionTypedFormalParameter) {
       return _buildFunctionType(
         node.typeParameters,
         node.returnType,
         node.parameters,
       );
     } else if (node is SimpleFormalParameter) {
       return _buildNodeType(node.type);
     } else {
       throw UnimplementedError('(${node.runtimeType}) $node');
     }
   }

   FunctionType _buildFunctionType(
     TypeParameterList typeParameterList,
     TypeAnnotation returnTypeNode,
     FormalParameterList parameterList,
   ) {
     var returnType = _buildNodeType(returnTypeNode);

     List<TypeParameterElement> typeParameters;
     if (typeParameterList != null) {
       typeParameters = typeParameterList.typeParameters
           .map<TypeParameterElement>((p) => p.declaredElement)
           .toList();
     } else {
       typeParameters = const <TypeParameterElement>[];
     }

     var formalParameters = parameterList.parameters.map((parameter) {
       return ParameterElementImpl.synthetic(
         parameter.identifier?.name ?? '',
         _buildFormalParameterType(parameter),
         // ignore: deprecated_member_use_from_same_package
         parameter.kind,
       );
     }).toList();

     return FunctionTypeImpl.synthetic(
       returnType,
       typeParameters,
       formalParameters,
     );
   }

   DartType _buildNodeType(TypeAnnotation node) {
     if (node == null) {
       return _dynamicType;
     } else {
       return _buildType(node.type);
     }
   }

   /// If the [type] is a [TypeBuilder], build it; otherwise return as is.
   DartType _buildType(DartType type) {
     if (type is TypeBuilder) {
       return type.build();
     } else {
       return type;
     }
   }

   FunctionType _getRawFunctionType(GenericTypeAliasElementImpl element) {
     // If the element is not being linked, there is no reason (or a way,
     // because the linked node might be read only partially) to go through
     // its node - all its types have already been built.
     if (!element.linkedContext.isLinking) {
       return element.function.type;
     }

     var typedefNode = element.linkedNode;
     if (typedefNode is FunctionTypeAlias) {
       return _buildFunctionType(
         null,
         typedefNode.returnType,
         typedefNode.parameters,
       );
     } else if (typedefNode is GenericTypeAlias) {
       var functionNode = typedefNode.functionType;
       return _buildFunctionType(
         functionNode.typeParameters,
         functionNode.returnType,
         functionNode.parameters,
       );
     } else {
       throw StateError('(${element.runtimeType}) $element');
     }
   }

   static List<DartType> _listOfDynamic(int length) {
     return List<DartType>.filled(length, _dynamicType);
   }
 }
	// Copyright (c) 2019, 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/element/element.dart';
	import 'package:analyzer/src/dart/element/type.dart';
	import 'package:analyzer/src/dart/element/type_algebra.dart';
	import 'package:analyzer/src/summary2/type_builder.dart';

	/// The type builder for a [TypeName].
	class NamedTypeBuilder extends TypeBuilder {
	static DynamicTypeImpl get _dynamicType => DynamicTypeImpl.instance;

	final Element element;
	final List<DartType> arguments;
	final NullabilitySuffix nullabilitySuffix;

	/// The node for which this builder is created, or `null` if the builder
	/// was detached from its node, e.g. during computing default types for
	/// type parameters.
	final TypeName node;

	/// The actual built type, not a [TypeBuilder] anymore.
	///
	/// When [build] is called, the type is built, stored into this field,
	/// and set for the [node].
	DartType _type;

	NamedTypeBuilder(this.element, this.arguments, this.nullabilitySuffix,
	{this.node});

	factory NamedTypeBuilder.of(
	TypeName node,
	Element element,
	NullabilitySuffix nullabilitySuffix,
	) {
	List<DartType> arguments;
	var argumentList = node.typeArguments;
	if (argumentList != null) {
	arguments = argumentList.arguments.map((n) => n.type).toList();
	} else {
	arguments = <DartType>[];
	}

	return NamedTypeBuilder(element, arguments, nullabilitySuffix, node: node);
	}

	@override
	DartType build() {
	if (_type != null) {
	return _type;
	}

	var element = this.element;
	if (element is ClassElement) {
	var parameters = element.typeParameters;
	if (parameters.isEmpty) {
	var rawType = element.type;
	_type = (rawType as TypeImpl).withNullability(nullabilitySuffix);
	} else {
	var arguments = _buildArguments(parameters);
	_type = InterfaceTypeImpl.explicit(
	element,
	arguments,
	nullabilitySuffix: nullabilitySuffix,
	);
	}
	} else if (element is GenericTypeAliasElement) {
	// Break a possible recursion.
	_type = _dynamicType;

	var rawType = _getRawFunctionType(element);

	var parameters = element.typeParameters;
	if (parameters.isEmpty) {
	_type = rawType;
	} else {
	var arguments = _buildArguments(parameters);
	var substitution = Substitution.fromPairs(parameters, arguments);
	_type = substitution.substituteType(rawType);
	}
	} else if (element is TypeParameterElement) {
	_type = TypeParameterTypeImpl(element);
	} else {
	_type = _dynamicType;
	}

	node?.type = _type;
	return _type;
	}

	@override
	String toString() {
	var buffer = StringBuffer();
	buffer.write(element.displayName);
	if (arguments.isNotEmpty) {
	buffer.write('<');
	buffer.write(arguments.join(', '));
	buffer.write('>');
	}
	return buffer.toString();
	}

	/// Build arguments that correspond to the type [parameters].
	List<DartType> _buildArguments(List<TypeParameterElement> parameters) {
	if (arguments.isNotEmpty) {
	if (arguments.length == parameters.length) {
	var result = List<DartType>(parameters.length);
	for (int i = 0; i < result.length; ++i) {
	var type = arguments[i];
	result[i] = _buildType(type);
	}
	return result;
	} else {
	return _listOfDynamic(parameters.length);
	}
	} else {
	var result = List<DartType>(parameters.length);
	for (int i = 0; i < result.length; ++i) {
	TypeParameterElementImpl parameter = parameters[i];
	var defaultType = parameter.defaultType;
	defaultType = _buildType(defaultType);
	result[i] = defaultType;
	}
	return result;
	}
	}

	DartType _buildFormalParameterType(FormalParameter node) {
	if (node is DefaultFormalParameter) {
	return _buildFormalParameterType(node.parameter);
	} else if (node is FunctionTypedFormalParameter) {
	return _buildFunctionType(
	node.typeParameters,
	node.returnType,
	node.parameters,
	);
	} else if (node is SimpleFormalParameter) {
	return _buildNodeType(node.type);
	} else {
	throw UnimplementedError('(${node.runtimeType}) $node');
	}
	}

	FunctionType _buildFunctionType(
	TypeParameterList typeParameterList,
	TypeAnnotation returnTypeNode,
	FormalParameterList parameterList,
	) {
	var returnType = _buildNodeType(returnTypeNode);

	List<TypeParameterElement> typeParameters;
	if (typeParameterList != null) {
	typeParameters = typeParameterList.typeParameters
	.map<TypeParameterElement>((p) => p.declaredElement)
	.toList();
	} else {
	typeParameters = const <TypeParameterElement>[];
	}

	var formalParameters = parameterList.parameters.map((parameter) {
	return ParameterElementImpl.synthetic(
	parameter.identifier?.name ?? '',
	_buildFormalParameterType(parameter),
	// ignore: deprecated_member_use_from_same_package
	parameter.kind,
	);
	}).toList();

	return FunctionTypeImpl.synthetic(
	returnType,
	typeParameters,
	formalParameters,
	);
	}

	DartType _buildNodeType(TypeAnnotation node) {
	if (node == null) {
	return _dynamicType;
	} else {
	return _buildType(node.type);
	}
	}

	/// If the [type] is a [TypeBuilder], build it; otherwise return as is.
	DartType _buildType(DartType type) {
	if (type is TypeBuilder) {
	return type.build();
	} else {
	return type;
	}
	}

	FunctionType _getRawFunctionType(GenericTypeAliasElementImpl element) {
	// If the element is not being linked, there is no reason (or a way,
	// because the linked node might be read only partially) to go through
	// its node - all its types have already been built.
	if (!element.linkedContext.isLinking) {
	return element.function.type;
	}

	var typedefNode = element.linkedNode;
	if (typedefNode is FunctionTypeAlias) {
	return _buildFunctionType(
	null,
	typedefNode.returnType,
	typedefNode.parameters,
	);
	} else if (typedefNode is GenericTypeAlias) {
	var functionNode = typedefNode.functionType;
	return _buildFunctionType(
	functionNode.typeParameters,
	functionNode.returnType,
	functionNode.parameters,
	);
	} else {
	throw StateError('(${element.runtimeType}) $element');
	}
	}

	static List<DartType> _listOfDynamic(int length) {
	return List<DartType>.filled(length, _dynamicType);
	}
	}