sdk/lib/core/annotations.dart - sdk.git - Git at Google

 // Copyright (c) 2013, 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.

 part of dart.core;

 /// The annotation `@Deprecated('migration')` marks a feature as deprecated.
 ///
 /// The annotation [deprecated] is a shorthand for deprecating until
 /// an unspecified "next release" without migration instructions.
 ///
 /// A feature can be any part of an API, from a full library to a single
 /// parameter.
 ///
 /// The intent of the `@Deprecated` annotation is to inform authors
 /// who are currently using the feature,
 /// that they will soon need to stop using that feature in their code,
 /// even if the feature is currently still working correctly.
 ///
 /// Deprecation is an early warning that the deprecated feature
 /// is scheduled to be removed at a later time,
 /// a time possibly specified in [message].
 /// A deprecated feature should no longer be used,
 /// code using it will break at some point in the future.
 /// If existing code is using the feature,
 /// that code should be rewritten to no longer use the deprecated feature.
 ///
 /// A deprecated feature should document how the same effect can be achieved in
 /// [message], so the programmer knows how to rewrite the code.
 ///
 /// The `@Deprecated` annotation applies to libraries, top-level declarations
 /// (variables, getters, setters, functions, classes, mixins,
 /// extension and typedefs),
 /// class-level declarations (variables, getters, setters, methods, operators or
 /// constructors, whether static or not), named optional parameters and
 /// trailing optional positional parameters.
 ///
 /// Deprecation applies transitively to parts of a deprecated feature:
 ///
 ///  - If a library is deprecated, so is every member of it.
 ///  - If a class is deprecated, so is every member of it.
 ///  - If a variable is deprecated, so are its implicit getter and setter.
 ///
 /// If a feature is deprecated in a superclass, it is *not* automatically
 /// deprecated in a subclass as well. It is reasonable to remove a member
 /// from a superclass and retain it in a subclass, so it needs to be possible
 /// to deprecate the member only in the superclass.
 ///
 /// A tool that processes Dart source code may report when:
 ///
 /// - the code imports a deprecated library.
 /// - the code exports a deprecated library, or any deprecated member of
 ///   a non-deprecated library.
 /// - the code refers statically to a deprecated declaration.
 /// - the code uses a member of an object with a statically known
 ///   type, where the member is deprecated on the interface of the static type.
 /// - the code calls a method with an argument where the
 ///   corresponding optional parameter is deprecated on the object's static type.
 ///
 /// If the deprecated use is inside a library, class or method which is itself
 /// deprecated, the tool should not bother the user about it.
 /// A deprecated feature is expected to use other deprecated features.
 class Deprecated {
   /// Message provided to the user when they use the deprecated feature.
   ///
   /// The message should explain how to migrate away from the feature if an
   /// alternative is available, and when the deprecated feature is expected to be
   /// removed.
   final String message;

   /// Create a deprecation annotation which specifies the migration path and
   /// expiration of the annotated feature.
   ///
   /// The [message] argument should be readable by programmers, and should state
   /// an alternative feature (if available) as well as when an annotated feature
   /// is expected to be removed.
   const Deprecated(this.message);

   @Deprecated('Use `message` instead. Will be removed in Dart 3.0.0')
   String get expires => message;

   String toString() => "Deprecated feature: $message";
 }

 /// Marks a feature as [Deprecated] until the next release.
 const Deprecated deprecated = Deprecated("next release");

 class _Override {
   const _Override();
 }

 /// Annotation on an instance members which override an interface member.
 ///
 /// Annotations have no effect on the meaning of a Dart program.
 /// This annotation is recognized by the Dart analyzer, and it allows the
 /// analyzer to provide hints or warnings for some potential problems of an
 /// otherwise valid program.
 /// As such, the meaning of this annotation is defined by the Dart analyzer.
 ///
 /// The `@override` annotation expresses the intent
 /// that a declaration *should* override an interface method,
 /// something which is not visible from the declaration itself.
 /// This extra information allows the analyzer to provide a warning
 /// when that intent is not satisfied,
 /// where a member is intended to override a superclass member or
 /// implement an interface member, but fails to do so.
 /// Such a situation can arise if a member name is mistyped,
 /// or if the superclass renames the member.
 ///
 /// The `@override` annotation applies to instance methods, instance getters,
 /// instance setters and instance variables (fields).
 /// When applied to an instance variable,
 /// it means that the variable's implicit getter and setter (if any)
 /// are marked as overriding. It has no effect on the variable itself.
 ///
 /// Further [lints](https://dart-lang.github.io/linter/lints/)
 /// can be used to enable more warnings based on `@override` annotations.
 const Object override = _Override();

 /// An annotation class that was used during development of Dart 2.
 ///
 /// Should not be used any more.
 @deprecated
 class Provisional {
   String? get message => null;
   const Provisional({String? message});
 }

 /// An annotation that was used during development of Dart 2.
 ///
 /// The annotation has no effect, and will be removed.
 @deprecated
 const Null provisional = null;

 /// This annotation was used in Dart prior to version 2.
 ///
 /// The annotation has no effect, and will be removed.
 @deprecated
 const Null proxy = null;

 /// A hint to tools.
 ///
 /// Tools that work with Dart programs may accept hints to guide their behavior
 /// as `pragma` annotations on declarations.
 /// Each tool decides which hints it accepts, what they mean, and whether and
 /// how they apply to sub-parts of the annotated entity.
 ///
 /// Tools that recognize pragma hints should pick a pragma prefix to identify
 /// the tool. They should recognize any hint with a [name] starting with their
 /// prefix followed by `:` as if it was intended for that tool. A hint with a
 /// prefix for another tool should be ignored (unless compatibility with that
 /// other tool is a goal).
 ///
 /// A tool may recognize unprefixed names as well, if they would recognize that
 /// name with their own prefix in front.
 ///
 /// If the hint can be parameterized,
 /// an extra [options] object can be added as well.
 ///
 /// For example:
 ///
 /// ```dart template:none
 /// @pragma('Tool:pragma-name', [param1, param2, ...])
 /// class Foo { }
 ///
 /// @pragma('OtherTool:other-pragma')
 /// void foo() { }
 /// ```
 ///
 /// Here class `Foo` is annotated with a Tool specific pragma 'pragma-name' and
 /// function `foo` is annotated with a pragma 'other-pragma'
 /// specific to OtherTool.
 @pragma('vm:entry-point')
 class pragma {
   /// The name of the hint.
   ///
   /// A string that is recognized by one or more tools, or such a string prefixed
   /// by a tool identifier and a colon, which is only recognized by that
   /// particular tool.
   final String name;

   /// Optional extra data parameterizing the hint.
   final Object? options;

   /// Creates a hint named [name] with optional [options].
   const factory pragma(String name, [Object? options]) = pragma._;

   const pragma._(this.name, [this.options]);
 }
	// Copyright (c) 2013, 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.

	part of dart.core;

	/// The annotation `@Deprecated('migration')` marks a feature as deprecated.
	///
	/// The annotation [deprecated] is a shorthand for deprecating until
	/// an unspecified "next release" without migration instructions.
	///
	/// A feature can be any part of an API, from a full library to a single
	/// parameter.
	///
	/// The intent of the `@Deprecated` annotation is to inform authors
	/// who are currently using the feature,
	/// that they will soon need to stop using that feature in their code,
	/// even if the feature is currently still working correctly.
	///
	/// Deprecation is an early warning that the deprecated feature
	/// is scheduled to be removed at a later time,
	/// a time possibly specified in [message].
	/// A deprecated feature should no longer be used,
	/// code using it will break at some point in the future.
	/// If existing code is using the feature,
	/// that code should be rewritten to no longer use the deprecated feature.
	///
	/// A deprecated feature should document how the same effect can be achieved in
	/// [message], so the programmer knows how to rewrite the code.
	///
	/// The `@Deprecated` annotation applies to libraries, top-level declarations
	/// (variables, getters, setters, functions, classes, mixins,
	/// extension and typedefs),
	/// class-level declarations (variables, getters, setters, methods, operators or
	/// constructors, whether static or not), named optional parameters and
	/// trailing optional positional parameters.
	///
	/// Deprecation applies transitively to parts of a deprecated feature:
	///
	/// - If a library is deprecated, so is every member of it.
	/// - If a class is deprecated, so is every member of it.
	/// - If a variable is deprecated, so are its implicit getter and setter.
	///
	/// If a feature is deprecated in a superclass, it is not automatically
	/// deprecated in a subclass as well. It is reasonable to remove a member
	/// from a superclass and retain it in a subclass, so it needs to be possible
	/// to deprecate the member only in the superclass.
	///
	/// A tool that processes Dart source code may report when:
	///
	/// - the code imports a deprecated library.
	/// - the code exports a deprecated library, or any deprecated member of
	/// a non-deprecated library.
	/// - the code refers statically to a deprecated declaration.
	/// - the code uses a member of an object with a statically known
	/// type, where the member is deprecated on the interface of the static type.
	/// - the code calls a method with an argument where the
	/// corresponding optional parameter is deprecated on the object's static type.
	///
	/// If the deprecated use is inside a library, class or method which is itself
	/// deprecated, the tool should not bother the user about it.
	/// A deprecated feature is expected to use other deprecated features.
	class Deprecated {
	/// Message provided to the user when they use the deprecated feature.
	///
	/// The message should explain how to migrate away from the feature if an
	/// alternative is available, and when the deprecated feature is expected to be
	/// removed.
	final String message;

	/// Create a deprecation annotation which specifies the migration path and
	/// expiration of the annotated feature.
	///
	/// The [message] argument should be readable by programmers, and should state
	/// an alternative feature (if available) as well as when an annotated feature
	/// is expected to be removed.
	const Deprecated(this.message);

	@Deprecated('Use `message` instead. Will be removed in Dart 3.0.0')
	String get expires => message;

	String toString() => "Deprecated feature: $message";
	}

	/// Marks a feature as [Deprecated] until the next release.
	const Deprecated deprecated = Deprecated("next release");

	class _Override {
	const _Override();
	}

	/// Annotation on an instance members which override an interface member.
	///
	/// Annotations have no effect on the meaning of a Dart program.
	/// This annotation is recognized by the Dart analyzer, and it allows the
	/// analyzer to provide hints or warnings for some potential problems of an
	/// otherwise valid program.
	/// As such, the meaning of this annotation is defined by the Dart analyzer.
	///
	/// The `@override` annotation expresses the intent
	/// that a declaration should override an interface method,
	/// something which is not visible from the declaration itself.
	/// This extra information allows the analyzer to provide a warning
	/// when that intent is not satisfied,
	/// where a member is intended to override a superclass member or
	/// implement an interface member, but fails to do so.
	/// Such a situation can arise if a member name is mistyped,
	/// or if the superclass renames the member.
	///
	/// The `@override` annotation applies to instance methods, instance getters,
	/// instance setters and instance variables (fields).
	/// When applied to an instance variable,
	/// it means that the variable's implicit getter and setter (if any)
	/// are marked as overriding. It has no effect on the variable itself.
	///
	/// Further [lints](https://dart-lang.github.io/linter/lints/)
	/// can be used to enable more warnings based on `@override` annotations.
	const Object override = _Override();

	/// An annotation class that was used during development of Dart 2.
	///
	/// Should not be used any more.
	@deprecated
	class Provisional {
	String? get message => null;
	const Provisional({String? message});
	}

	/// An annotation that was used during development of Dart 2.
	///
	/// The annotation has no effect, and will be removed.
	@deprecated
	const Null provisional = null;

	/// This annotation was used in Dart prior to version 2.
	///
	/// The annotation has no effect, and will be removed.
	@deprecated
	const Null proxy = null;

	/// A hint to tools.
	///
	/// Tools that work with Dart programs may accept hints to guide their behavior
	/// as `pragma` annotations on declarations.
	/// Each tool decides which hints it accepts, what they mean, and whether and
	/// how they apply to sub-parts of the annotated entity.
	///
	/// Tools that recognize pragma hints should pick a pragma prefix to identify
	/// the tool. They should recognize any hint with a [name] starting with their
	/// prefix followed by `:` as if it was intended for that tool. A hint with a
	/// prefix for another tool should be ignored (unless compatibility with that
	/// other tool is a goal).
	///
	/// A tool may recognize unprefixed names as well, if they would recognize that
	/// name with their own prefix in front.
	///
	/// If the hint can be parameterized,
	/// an extra [options] object can be added as well.
	///
	/// For example:
	///
	/// ```dart template:none
	/// @pragma('Tool:pragma-name', [param1, param2, ...])
	/// class Foo { }
	///
	/// @pragma('OtherTool:other-pragma')
	/// void foo() { }
	/// ```
	///
	/// Here class `Foo` is annotated with a Tool specific pragma 'pragma-name' and
	/// function `foo` is annotated with a pragma 'other-pragma'
	/// specific to OtherTool.
	@pragma('vm:entry-point')
	class pragma {
	/// The name of the hint.
	///
	/// A string that is recognized by one or more tools, or such a string prefixed
	/// by a tool identifier and a colon, which is only recognized by that
	/// particular tool.
	final String name;

	/// Optional extra data parameterizing the hint.
	final Object? options;

	/// Creates a hint named [name] with optional [options].
	const factory pragma(String name, [Object? options]) = pragma._;

	const pragma._(this.name, [this.options]);
	}