| // 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. |
| |
| /** |
| * Defines the type model. The type model is part of the |
| * [element model](element.dart) in that most types are defined by Dart code |
| * (the types `dynamic` and `void` being the notable exceptions). All types are |
| * represented by an instance of a subclass of [DartType]. |
| * |
| * Other than `dynamic` and `void`, all of the types define either the interface |
| * defined by a class (an instance of [InterfaceType]) or the type of a function |
| * (an instance of [FunctionType]). |
| * |
| * We make a distinction between the declaration of a class (a [ClassElement]) |
| * and the type defined by that class (an [InterfaceType]). The biggest reason |
| * for the distinction is to allow us to more cleanly represent the distinction |
| * between type parameters and type arguments. For example, if we define a class |
| * as `class Pair<K, V> {}`, the declarations of `K` and `V` represent type |
| * parameters. But if we declare a variable as `Pair<String, int> pair;` the |
| * references to `String` and `int` are type arguments. |
| */ |
| import 'package:analyzer/dart/element/element.dart'; |
| import 'package:analyzer/src/dart/element/type.dart' show InterfaceTypeImpl; |
| import 'package:analyzer/src/generated/type_system.dart' show TypeSystem; |
| |
| /** |
| * The type associated with elements in the element model. |
| * |
| * Clients may not extend, implement or mix-in this class. |
| */ |
| abstract class DartType { |
| /** |
| * An empty list of types. |
| */ |
| static const List<DartType> EMPTY_LIST = const <DartType>[]; |
| |
| /** |
| * Return the name of this type as it should appear when presented to users in |
| * contexts such as error messages. |
| */ |
| String get displayName; |
| |
| /** |
| * Return the element representing the declaration of this type, or `null` if |
| * the type has not, or cannot, be associated with an element. The former case |
| * will occur if the element model is not yet complete; the latter case will |
| * occur if this object represents an undefined type. |
| */ |
| Element get element; |
| |
| /** |
| * Return `true` if this type represents the bottom type. |
| */ |
| bool get isBottom; |
| |
| /** |
| * Return `true` if this type represents the type 'Future' defined in the |
| * dart:async library. |
| */ |
| bool get isDartAsyncFuture; |
| |
| /** |
| * Return `true` if this type represents the type 'FutureOr<T>' defined in the |
| * dart:async library. |
| */ |
| bool get isDartAsyncFutureOr; |
| |
| /** |
| * Return `true` if this type represents the type 'Function' defined in the |
| * dart:core library. |
| */ |
| bool get isDartCoreFunction; |
| |
| /** |
| * Return `true` if this type represents the type 'Null' defined in the |
| * dart:core library. |
| */ |
| bool get isDartCoreNull; |
| |
| /** |
| * Return `true` if this type represents the type 'dynamic'. |
| */ |
| bool get isDynamic; |
| |
| /** |
| * Return `true` if this type represents the type 'Object'. |
| */ |
| bool get isObject; |
| |
| /** |
| * Return `true` if this type represents a typename that couldn't be resolved. |
| */ |
| bool get isUndefined; |
| |
| /** |
| * Return `true` if this type represents the type 'void'. |
| */ |
| bool get isVoid; |
| |
| /** |
| * Return the name of this type, or `null` if the type does not have a name, |
| * such as when the type represents the type of an unnamed function. |
| */ |
| String get name; |
| |
| /** |
| * Implements the function "flatten" defined in the spec, where T is this |
| * type: |
| * |
| * If T = Future<S> then flatten(T) = flatten(S). |
| * |
| * Otherwise if T <: Future then let S be a type such that T << Future<S> |
| * and for all R, if T << Future<R> then S << R. Then flatten(T) = S. |
| * |
| * In any other circumstance, flatten(T) = T. |
| */ |
| DartType flattenFutures(TypeSystem typeSystem); |
| |
| /** |
| * Return `true` if this type is assignable to the given [type]. A type |
| * <i>T</i> may be assigned to a type <i>S</i>, written <i>T</i> ⇔ |
| * <i>S</i>, iff either <i>T</i> <: <i>S</i> or <i>S</i> <: <i>T</i>. |
| */ |
| bool isAssignableTo(DartType type); |
| |
| /// Indicates whether `this` represents a type that is equivalent to `dest`. |
| /// |
| /// This is different from `operator==`. Consider for example: |
| /// |
| /// typedef void F<T>(); // T not used! |
| /// |
| /// `operator==` would consider F<int> and F<bool> to be different types; |
| /// `isEquivalentTo` considers them to be equivalent. |
| bool isEquivalentTo(DartType dest); |
| |
| /** |
| * Return `true` if this type is more specific than the given [type]. |
| */ |
| bool isMoreSpecificThan(DartType type); |
| |
| /** |
| * Return `true` if this type is a subtype of the given [type]. |
| */ |
| bool isSubtypeOf(DartType type); |
| |
| /** |
| * Return `true` if this type is a supertype of the given [type]. A type |
| * <i>S</i> is a supertype of <i>T</i>, written <i>S</i> :> <i>T</i>, iff |
| * <i>T</i> is a subtype of <i>S</i>. |
| */ |
| bool isSupertypeOf(DartType type); |
| |
| /** |
| * If this type is a [TypeParameterType], returns its bound if it has one, or |
| * [objectType] otherwise. |
| * |
| * For any other type, returns `this`. Applies recursively -- if the bound is |
| * itself a type parameter, that is resolved too. |
| */ |
| DartType resolveToBound(DartType objectType); |
| |
| /** |
| * Return the type resulting from substituting the given [argumentTypes] for |
| * the given [parameterTypes] in this type. The specification defines this |
| * operation in section 2: |
| * <blockquote> |
| * The notation <i>[x<sub>1</sub>, ..., x<sub>n</sub>/y<sub>1</sub>, ..., |
| * y<sub>n</sub>]E</i> denotes a copy of <i>E</i> in which all occurrences of |
| * <i>y<sub>i</sub>, 1 <= i <= n</i> have been replaced with |
| * <i>x<sub>i</sub></i>. |
| * </blockquote> |
| * Note that, contrary to the specification, this method will not create a |
| * copy of this type if no substitutions were required, but will return this |
| * type directly. |
| * |
| * Note too that the current implementation of this method is only guaranteed |
| * to work when the parameter types are type variables. |
| */ |
| DartType substitute2( |
| List<DartType> argumentTypes, List<DartType> parameterTypes); |
| } |
| |
| /** |
| * The type of a function, method, constructor, getter, or setter. Function |
| * types come in three variations: |
| * |
| * * The types of functions that only have required parameters. These have the |
| * general form <i>(T<sub>1</sub>, …, T<sub>n</sub>) → T</i>. |
| * * The types of functions with optional positional parameters. These have the |
| * general form <i>(T<sub>1</sub>, …, T<sub>n</sub>, [T<sub>n+1</sub> |
| * …, T<sub>n+k</sub>]) → T</i>. |
| * * The types of functions with named parameters. These have the general form |
| * <i>(T<sub>1</sub>, …, T<sub>n</sub>, {T<sub>x1</sub> x1, …, |
| * T<sub>xk</sub> xk}) → T</i>. |
| * |
| * Clients may not extend, implement or mix-in this class. |
| */ |
| abstract class FunctionType implements ParameterizedType { |
| /** |
| * Deprecated: use [typeFormals]. |
| */ |
| @deprecated |
| List<TypeParameterElement> get boundTypeParameters; |
| |
| /** |
| * Return a map from the names of named parameters to the types of the named |
| * parameters of this type of function. The entries in the map will be |
| * iterated in the same order as the order in which the named parameters were |
| * defined. If there were no named parameters declared then the map will be |
| * empty. |
| */ |
| Map<String, DartType> get namedParameterTypes; |
| |
| /** |
| * The names of the required positional parameters of this type of function, |
| * in the order that the parameters appear. |
| */ |
| List<String> get normalParameterNames; |
| |
| /** |
| * Return a list containing the types of the normal parameters of this type of |
| * function. The parameter types are in the same order as they appear in the |
| * declaration of the function. |
| */ |
| List<DartType> get normalParameterTypes; |
| |
| /** |
| * The names of the optional positional parameters of this type of function, |
| * in the order that the parameters appear. |
| */ |
| List<String> get optionalParameterNames; |
| |
| /** |
| * Return a map from the names of optional (positional) parameters to the |
| * types of the optional parameters of this type of function. The entries in |
| * the map will be iterated in the same order as the order in which the |
| * optional parameters were defined. If there were no optional parameters |
| * declared then the map will be empty. |
| */ |
| List<DartType> get optionalParameterTypes; |
| |
| /** |
| * Return a list containing the parameters elements of this type of function. |
| * The parameter types are in the same order as they appear in the declaration |
| * of the function. |
| */ |
| List<ParameterElement> get parameters; |
| |
| /** |
| * Return the type of object returned by this type of function. |
| */ |
| DartType get returnType; |
| |
| /** |
| * The formal type parameters of this generic function. |
| * For example `<T> T -> T`. |
| * |
| * These are distinct from the [typeParameters] list, which contains type |
| * parameters from surrounding contexts, and thus are free type variables from |
| * the perspective of this function type. |
| */ |
| List<TypeParameterElement> get typeFormals; |
| |
| @override |
| FunctionType instantiate(List<DartType> argumentTypes); |
| |
| /** |
| * Return `true` if this type is a subtype of the given [type]. |
| * |
| * A function type <i>(T<sub>1</sub>, …, T<sub>n</sub>) → T</i> is |
| * a subtype of the function type <i>(S<sub>1</sub>, …, S<sub>n</sub>) |
| * → S</i>, if all of the following conditions are met: |
| * |
| * * Either |
| * * <i>S</i> is void, or |
| * * <i>T ⇔ S</i>. |
| * |
| * * For all <i>i</i>, 1 <= <i>i</i> <= <i>n</i>, <i>T<sub>i</sub> ⇔ |
| * S<sub>i</sub></i>. |
| * |
| * A function type <i>(T<sub>1</sub>, …, T<sub>n</sub>, |
| * [T<sub>n+1</sub>, …, T<sub>n+k</sub>]) → T</i> is a subtype of |
| * the function type <i>(S<sub>1</sub>, …, S<sub>n</sub>, |
| * [S<sub>n+1</sub>, …, S<sub>n+m</sub>]) → S</i>, if all of the |
| * following conditions are met: |
| * |
| * * Either |
| * * <i>S</i> is void, or |
| * * <i>T ⇔ S</i>. |
| * |
| * * <i>k</i> >= <i>m</i> and for all <i>i</i>, 1 <= <i>i</i> <= <i>n+m</i>, |
| * <i>T<sub>i</sub> ⇔ S<sub>i</sub></i>. |
| * |
| * A function type <i>(T<sub>1</sub>, …, T<sub>n</sub>, |
| * {T<sub>x1</sub> x1, …, T<sub>xk</sub> xk}) → T</i> is a subtype |
| * of the function type <i>(S<sub>1</sub>, …, S<sub>n</sub>, |
| * {S<sub>y1</sub> y1, …, S<sub>ym</sub> ym}) → S</i>, if all of |
| * the following conditions are met: |
| * * Either |
| * * <i>S</i> is void, |
| * * or <i>T ⇔ S</i>. |
| * |
| * * For all <i>i</i>, 1 <= <i>i</i> <= <i>n</i>, <i>T<sub>i</sub> ⇔ |
| * S<sub>i</sub></i>. |
| * * <i>k</i> >= <i>m</i> and <i>y<sub>i</sub></i> in <i>{x<sub>1</sub>, |
| * …, x<sub>k</sub>}</i>, 1 <= <i>i</i> <= <i>m</i>. |
| * * For all <i>y<sub>i</sub></i> in <i>{y<sub>1</sub>, …, |
| * y<sub>m</sub>}</i>, <i>y<sub>i</sub> = x<sub>j</sub> => Tj ⇔ Si</i>. |
| * |
| * In addition, the following subtype rules apply: |
| * |
| * <i>(T<sub>1</sub>, …, T<sub>n</sub>, []) → T <: (T<sub>1</sub>, |
| * …, T<sub>n</sub>) → T.</i><br> |
| * <i>(T<sub>1</sub>, …, T<sub>n</sub>) → T <: (T<sub>1</sub>, |
| * …, T<sub>n</sub>, {}) → T.</i><br> |
| * <i>(T<sub>1</sub>, …, T<sub>n</sub>, {}) → T <: (T<sub>1</sub>, |
| * …, T<sub>n</sub>) → T.</i><br> |
| * <i>(T<sub>1</sub>, …, T<sub>n</sub>) → T <: (T<sub>1</sub>, |
| * …, T<sub>n</sub>, []) → T.</i> |
| * |
| * All functions implement the class `Function`. However not all function |
| * types are a subtype of `Function`. If an interface type <i>I</i> includes a |
| * method named `call()`, and the type of `call()` is the function type |
| * <i>F</i>, then <i>I</i> is considered to be a subtype of <i>F</i>. |
| */ |
| @override |
| bool isSubtypeOf(DartType type); |
| |
| @override |
| FunctionType substitute2( |
| List<DartType> argumentTypes, List<DartType> parameterTypes); |
| |
| /** |
| * Return the type resulting from substituting the given [argumentTypes] for |
| * this type's parameters. This is fully equivalent to |
| * `substitute(argumentTypes, getTypeArguments())`. |
| */ |
| @deprecated // use instantiate |
| FunctionType substitute3(List<DartType> argumentTypes); |
| } |
| |
| /** |
| * The type introduced by either a class or an interface, or a reference to such |
| * a type. |
| * |
| * Clients may not extend, implement or mix-in this class. |
| */ |
| abstract class InterfaceType implements ParameterizedType { |
| /** |
| * An empty list of types. |
| */ |
| static const List<InterfaceType> EMPTY_LIST = const <InterfaceType>[]; |
| |
| /** |
| * Return a list containing all of the accessors (getters and setters) |
| * declared in this type. |
| */ |
| List<PropertyAccessorElement> get accessors; |
| |
| /** |
| * Return a list containing all of the constructors declared in this type. |
| */ |
| List<ConstructorElement> get constructors; |
| |
| @override |
| ClassElement get element; |
| |
| /** |
| * Return a list containing all of the interfaces that are implemented by this |
| * interface. Note that this is <b>not</b>, in general, equivalent to getting |
| * the interfaces from this type's element because the types returned by this |
| * method will have had their type parameters replaced. |
| */ |
| List<InterfaceType> get interfaces; |
| |
| /** |
| * Return a list containing all of the methods declared in this type. |
| */ |
| List<MethodElement> get methods; |
| |
| /** |
| * Return a list containing all of the mixins that are applied to the class |
| * being extended in order to derive the superclass of this class. Note that |
| * this is <b>not</b>, in general, equivalent to getting the mixins from this |
| * type's element because the types returned by this method will have had |
| * their type parameters replaced. |
| */ |
| List<InterfaceType> get mixins; |
| |
| /** |
| * Return the type representing the superclass of this type, or null if this |
| * type represents the class 'Object'. Note that this is <b>not</b>, in |
| * general, equivalent to getting the superclass from this type's element |
| * because the type returned by this method will have had it's type parameters |
| * replaced. |
| */ |
| InterfaceType get superclass; |
| |
| /** |
| * Return the element representing the getter with the given [name] that is |
| * declared in this class, or `null` if this class does not declare a getter |
| * with the given name. |
| */ |
| PropertyAccessorElement getGetter(String name); |
| |
| /** |
| * Return the element representing the method with the given [name] that is |
| * declared in this class, or `null` if this class does not declare a method |
| * with the given name. |
| */ |
| MethodElement getMethod(String name); |
| |
| /** |
| * Return the element representing the setter with the given [name] that is |
| * declared in this class, or `null` if this class does not declare a setter |
| * with the given name. |
| */ |
| PropertyAccessorElement getSetter(String name); |
| |
| @override |
| InterfaceType instantiate(List<DartType> argumentTypes); |
| |
| /** |
| * Return `true` if this type is a direct supertype of the given [type]. The |
| * implicit interface of class <i>I</i> is a direct supertype of the implicit |
| * interface of class <i>J</i> iff: |
| * |
| * * <i>I</i> is Object, and <i>J</i> has no extends clause. |
| * * <i>I</i> is listed in the extends clause of <i>J</i>. |
| * * <i>I</i> is listed in the implements clause of <i>J</i>. |
| * * <i>I</i> is listed in the with clause of <i>J</i>. |
| * * <i>J</i> is a mixin application of the mixin of <i>I</i>. |
| */ |
| bool isDirectSupertypeOf(InterfaceType type); |
| |
| /** |
| * Return `true` if this type is more specific than the given [type]. An |
| * interface type <i>T</i> is more specific than an interface type <i>S</i>, |
| * written <i>T « S</i>, if one of the following conditions is met: |
| * |
| * * Reflexivity: <i>T</i> is <i>S</i>. |
| * * <i>T</i> is bottom. |
| * * <i>S</i> is dynamic. |
| * * Direct supertype: <i>S</i> is a direct supertype of <i>T</i>. |
| * * <i>T</i> is a type parameter and <i>S</i> is the upper bound of <i>T</i>. |
| * * Covariance: <i>T</i> is of the form <i>I<T<sub>1</sub>, …, |
| * T<sub>n</sub>></i> and S</i> is of the form <i>I<S<sub>1</sub>, |
| * …, S<sub>n</sub>></i> and <i>T<sub>i</sub> « |
| * S<sub>i</sub></i>, <i>1 <= i <= n</i>. |
| * * Transitivity: <i>T « U</i> and <i>U « S</i>. |
| */ |
| @override |
| bool isMoreSpecificThan(DartType type); |
| |
| /** |
| * Return `true` if this type is a subtype of the given [type]. An interface |
| * type <i>T</i> is a subtype of an interface type <i>S</i>, written <i>T</i> |
| * <: <i>S</i>, iff <i>[bottom/dynamic]T</i> « <i>S</i> (<i>T</i> is |
| * more specific than <i>S</i>). If an interface type <i>I</i> includes a |
| * method named <i>call()</i>, and the type of <i>call()</i> is the function |
| * type <i>F</i>, then <i>I</i> is considered to be a subtype of <i>F</i>. |
| */ |
| @override |
| bool isSubtypeOf(DartType type); |
| |
| /** |
| * Return the element representing the constructor that results from looking |
| * up the constructor with the given [name] in this class with respect to the |
| * given [library], or `null` if the look up fails. The behavior of this |
| * method is defined by the Dart Language Specification in section 12.11.1: |
| * <blockquote> |
| * If <i>e</i> is of the form <b>new</b> <i>T.id()</i> then let <i>q<i> be the |
| * constructor <i>T.id</i>, otherwise let <i>q<i> be the constructor <i>T<i>. |
| * Otherwise, if <i>q</i> is not defined or not accessible, a |
| * NoSuchMethodException is thrown. |
| * </blockquote> |
| */ |
| ConstructorElement lookUpConstructor(String name, LibraryElement library); |
| |
| /** |
| * Return the element representing the getter that results from looking up the |
| * getter with the given [name] in this class with respect to the given |
| * [library], or `null` if the look up fails. The behavior of this method is |
| * defined by the Dart Language Specification in section 12.15.1: |
| * <blockquote> |
| * The result of looking up getter (respectively setter) <i>m</i> in class |
| * <i>C</i> with respect to library <i>L</i> is: |
| * * If <i>C</i> declares an instance getter (respectively setter) named |
| * <i>m</i> that is accessible to <i>L</i>, then that getter (respectively |
| * setter) is the result of the lookup. Otherwise, if <i>C</i> has a |
| * superclass <i>S</i>, then the result of the lookup is the result of |
| * looking up getter (respectively setter) <i>m</i> in <i>S</i> with respect |
| * to <i>L</i>. Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| PropertyAccessorElement lookUpGetter(String name, LibraryElement library); |
| |
| /** |
| * Return the element representing the getter that results from looking up the |
| * getter with the given [name] in the superclass of this class with respect |
| * to the given [library], or `null` if the look up fails. The behavior of |
| * this method is defined by the Dart Language Specification in section |
| * 12.15.1: |
| * <blockquote> |
| * The result of looking up getter (respectively setter) <i>m</i> in class |
| * <i>C</i> with respect to library <i>L</i> is: |
| * * If <i>C</i> declares an instance getter (respectively setter) named |
| * <i>m</i> that is accessible to <i>L</i>, then that getter (respectively |
| * setter) is the result of the lookup. Otherwise, if <i>C</i> has a |
| * superclass <i>S</i>, then the result of the lookup is the result of |
| * looking up getter (respectively setter) <i>m</i> in <i>S</i> with respect |
| * to <i>L</i>. Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| PropertyAccessorElement lookUpGetterInSuperclass( |
| String name, LibraryElement library); |
| |
| /** |
| * Look up the member with the given [name] in this type and all extended |
| * and mixed in classes, and by default including [thisType]. If the search |
| * fails, this will then search interfaces. |
| * |
| * Return the element representing the member that was found, or `null` if |
| * there is no getter with the given name. |
| * |
| * The [library] determines if a private member name is visible, and does not |
| * need to be supplied for public names. |
| */ |
| PropertyAccessorElement lookUpInheritedGetter(String name, |
| {LibraryElement library, bool thisType: true}); |
| |
| /** |
| * Look up the member with the given [name] in this type and all extended |
| * and mixed in classes, starting from this type. If the search fails, |
| * search interfaces. |
| * |
| * Return the element representing the member that was found, or `null` if |
| * there is no getter with the given name. |
| * |
| * The [library] determines if a private member name is visible, and does not |
| * need to be supplied for public names. |
| */ |
| ExecutableElement lookUpInheritedGetterOrMethod(String name, |
| {LibraryElement library}); |
| |
| /** |
| * Look up the member with the given [name] in this type and all extended |
| * and mixed in classes, and by default including [thisType]. If the search |
| * fails, this will then search interfaces. |
| * |
| * Return the element representing the member that was found, or `null` if |
| * there is no getter with the given name. |
| * |
| * The [library] determines if a private member name is visible, and does not |
| * need to be supplied for public names. |
| */ |
| MethodElement lookUpInheritedMethod(String name, |
| {LibraryElement library, bool thisType: true}); |
| |
| /** |
| * Look up the member with the given [name] in this type and all extended |
| * and mixed in classes, and by default including [thisType]. If the search |
| * fails, this will then search interfaces. |
| * |
| * Return the element representing the member that was found, or `null` if |
| * there is no getter with the given name. |
| * |
| * The [library] determines if a private member name is visible, and does not |
| * need to be supplied for public names. |
| */ |
| PropertyAccessorElement lookUpInheritedSetter(String name, |
| {LibraryElement library, bool thisType: true}); |
| |
| /** |
| * Return the element representing the method that results from looking up the |
| * method with the given [name] in this class with respect to the given |
| * [library], or `null` if the look up fails. The behavior of this method is |
| * defined by the Dart Language Specification in section 12.15.1: |
| * <blockquote> |
| * The result of looking up method <i>m</i> in class <i>C</i> with respect to |
| * library <i>L</i> is: |
| * * If <i>C</i> declares an instance method named <i>m</i> that is accessible |
| * to <i>L</i>, then that method is the result of the lookup. Otherwise, if |
| * <i>C</i> has a superclass <i>S</i>, then the result of the lookup is the |
| * result of looking up method <i>m</i> in <i>S</i> with respect to <i>L</i> |
| * Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| MethodElement lookUpMethod(String name, LibraryElement library); |
| |
| /** |
| * Return the element representing the method that results from looking up the |
| * method with the given [name] in the superclass of this class with respect |
| * to the given [library], or `null` if the look up fails. The behavior of |
| * this method is defined by the Dart Language Specification in section |
| * 12.15.1: |
| * <blockquote> |
| * The result of looking up method <i>m</i> in class <i>C</i> with respect to |
| * library <i>L</i> is: |
| * * If <i>C</i> declares an instance method named <i>m</i> that is accessible |
| * to <i>L</i>, then that method is the result of the lookup. Otherwise, if |
| * <i>C</i> has a superclass <i>S</i>, then the result of the lookup is the |
| * result of looking up method <i>m</i> in <i>S</i> with respect to <i>L</i>. |
| * Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| MethodElement lookUpMethodInSuperclass(String name, LibraryElement library); |
| |
| /** |
| * Return the element representing the setter that results from looking up the |
| * setter with the given [name] in this class with respect to the given |
| * [library], or `null` if the look up fails. The behavior of this method is |
| * defined by the Dart Language Specification in section 12.16: |
| * <blockquote> |
| * The result of looking up getter (respectively setter) <i>m</i> in class |
| * <i>C</i> with respect to library <i>L</i> is: |
| * * If <i>C</i> declares an instance getter (respectively setter) named |
| * <i>m</i> that is accessible to <i>L</i>, then that getter (respectively |
| * setter) is the result of the lookup. Otherwise, if <i>C</i> has a |
| * superclass <i>S</i>, then the result of the lookup is the result of |
| * looking up getter (respectively setter) <i>m</i> in <i>S</i> with respect |
| * to <i>L</i>. Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| PropertyAccessorElement lookUpSetter(String name, LibraryElement library); |
| |
| /** |
| * Return the element representing the setter that results from looking up the |
| * setter with the given [name] in the superclass of this class with respect |
| * to the given [library], or `null` if the look up fails. The behavior of |
| * this method is defined by the Dart Language Specification in section 12.16: |
| * <blockquote> |
| * The result of looking up getter (respectively setter) <i>m</i> in class |
| * <i>C</i> with respect to library <i>L</i> is: |
| * * If <i>C</i> declares an instance getter (respectively setter) named |
| * <i>m</i> that is accessible to <i>L</i>, then that getter (respectively |
| * setter) is the result of the lookup. Otherwise, if <i>C</i> has a |
| * superclass <i>S</i>, then the result of the lookup is the result of |
| * looking up getter (respectively setter) <i>m</i> in <i>S</i> with respect |
| * to <i>L</i>. Otherwise, we say that the lookup has failed. |
| * </blockquote> |
| */ |
| PropertyAccessorElement lookUpSetterInSuperclass( |
| String name, LibraryElement library); |
| |
| @override |
| InterfaceType substitute2( |
| List<DartType> argumentTypes, List<DartType> parameterTypes); |
| |
| /** |
| * Return the type resulting from substituting the given arguments for this |
| * type's parameters. This is fully equivalent to `substitute2(argumentTypes, |
| * getTypeArguments())`. |
| */ |
| @deprecated // use instantiate |
| InterfaceType substitute4(List<DartType> argumentTypes); |
| |
| /** |
| * Returns a "smart" version of the "least upper bound" of the given types. |
| * |
| * If these types have the same element and differ only in terms of the type |
| * arguments, attempts to find a compatible set of type arguments. |
| * |
| * Otherwise, returns the same result as [DartType.getLeastUpperBound]. |
| */ |
| // TODO(brianwilkerson) This needs to be deprecated and moved to TypeSystem. |
| static InterfaceType getSmartLeastUpperBound( |
| InterfaceType first, InterfaceType second) => |
| InterfaceTypeImpl.getSmartLeastUpperBound(first, second); |
| } |
| |
| /** |
| * A type that can track substituted type parameters, either for itself after |
| * instantiation, or from a surrounding context. |
| * |
| * For example, given a class `Foo<T>`, after instantiation with S for T, it |
| * will track the substitution `{S/T}`. |
| * |
| * This substitution will be propagated to its members. For example, say our |
| * `Foo<T>` class has a field `T bar;`. When we look up this field, we will get |
| * back a [FieldElement] that tracks the substituted type as `{S/T}T`, so when |
| * we ask for the field type we will get `S`. |
| * |
| * Clients may not extend, implement or mix-in this class. |
| */ |
| abstract class ParameterizedType implements DartType { |
| /** |
| * Return a list containing the actual types of the type arguments. If this |
| * type's element does not have type parameters, then the array should be |
| * empty (although it is possible for type arguments to be erroneously |
| * declared). If the element has type parameters and the actual type does not |
| * explicitly include argument values, then the type "dynamic" will be |
| * automatically provided. |
| */ |
| List<DartType> get typeArguments; |
| |
| /** |
| * Return a list containing all of the type parameters declared for this type. |
| */ |
| List<TypeParameterElement> get typeParameters; |
| |
| /** |
| * Return the type resulting from instantiating (replacing) the given |
| * [argumentTypes] for this type's bound type parameters. |
| */ |
| ParameterizedType instantiate(List<DartType> argumentTypes); |
| } |
| |
| /** |
| * The type introduced by a type parameter. |
| * |
| * Clients may not extend, implement or mix-in this class. |
| */ |
| abstract class TypeParameterType implements DartType { |
| /** |
| * An empty list of type parameter types. |
| */ |
| static const List<TypeParameterType> EMPTY_LIST = const <TypeParameterType>[]; |
| |
| /** |
| * Return the type representing the bound associated with this parameter, |
| * or `dynamic` if there was no explicit bound. |
| */ |
| DartType get bound; |
| |
| /** |
| * An object that can be used to identify this type parameter with `==`. |
| * |
| * Depending on the use, [bound] may also need to be taken into account. |
| * A given type parameter, it may have different bounds in different scopes. |
| * Always consult the bound if that could be relevant. |
| */ |
| ElementLocation get definition; |
| |
| @override |
| TypeParameterElement get element; |
| } |