pkg/js_runtime/lib/shared/embedded_names.dart - sdk.git - Git at Google

 // 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.

 /// Contains the names of globals that are embedded into the output by the
 /// compiler.
 ///
 /// Variables embedded this way should be access with `JS_EMBEDDED_GLOBAL` from
 /// the `_foreign_helper` library.
 ///
 /// This library is shared between the compiler and the runtime system.
 library dart2js._embedded_names;

 /// The name of the property that is used to find the native superclass of
 /// an extended class.
 ///
 /// Every class that extends a native class has this property set on its
 /// native class.
 const NATIVE_SUPERCLASS_TAG_NAME = r"$nativeSuperclassTag";

 /// The name of the static-function property name.
 ///
 /// This property is set for all tear-offs of static functions, and provides
 /// the static function's unique (potentially minified) name.
 const STATIC_FUNCTION_NAME_PROPERTY_NAME = r'$static_name';

 /// The name of a property on the constructor function of Dart Object
 /// and interceptor types, used for caching Rti types.
 const CONSTRUCTOR_RTI_CACHE_PROPERTY_NAME = r'$ccache';

 /// The name of the embedded global for metadata.
 ///
 /// Use [JsBuiltin.getMetadata] instead of directly accessing this embedded
 /// global.
 const METADATA = 'metadata';

 /// A list of types used in the program e.g. for reflection or encoding of
 /// function types.
 ///
 /// Use [JsBuiltin.getType] instead of directly accessing this embedded global.
 const TYPES = 'types';

 /// A JS map from mangled global names to their unmangled names.
 ///
 /// If the program does not use reflection, this embedded global may be empty
 /// (but not null or undefined).
 const MANGLED_GLOBAL_NAMES = 'mangledGlobalNames';

 /// A JS map from mangled instance names to their unmangled names.
 ///
 /// This embedded global is mainly used for reflection, but is also used to
 /// map const-symbols (`const Symbol('x')`) to the mangled instance names.
 ///
 /// This embedded global may be empty (but not null or undefined).
 const MANGLED_NAMES = 'mangledNames';

 /// A JS map from dispatch tags (usually constructor names of DOM classes) to
 /// interceptor class. This map is used to find the correct interceptor for
 /// native classes.
 ///
 /// This embedded global is used for natives.
 const INTERCEPTORS_BY_TAG = 'interceptorsByTag';

 /// A JS map from dispatch tags (usually constructor names of DOM classes) to
 /// booleans. Every tag entry of [INTERCEPTORS_BY_TAG] has a corresponding
 /// entry in the leaf-tags map.
 ///
 /// A tag-entry is true, when a class can be treated as leaf class in the
 /// hierarchy. That is, even though it might have subclasses, all subclasses
 /// have the same code for the used methods.
 ///
 /// This embedded global is used for natives.
 const LEAF_TAGS = 'leafTags';

 /// A JS function that returns the isolate tag for a given name.
 ///
 /// This function uses the [ISOLATE_TAG] (below) to construct a name that is
 /// unique per isolate.
 ///
 /// This embedded global is used for natives.
 // TODO(floitsch): should we rename this variable to avoid confusion with
 //    [INTERCEPTORS_BY_TAG] and [LEAF_TAGS].
 const GET_ISOLATE_TAG = 'getIsolateTag';

 /// A string that is different for each running isolate.
 ///
 /// When this embedded global is initialized a global variable is used to
 /// ensure that no other running isolate uses the same isolate-tag string.
 ///
 /// This embedded global is used for natives.
 // TODO(floitsch): should we rename this variable to avoid confusion with
 //    [INTERCEPTORS_BY_TAG] and [LEAF_TAGS].
 const ISOLATE_TAG = 'isolateTag';

 /// An embedded global that contains the property used to store type information
 /// on JavaScript Array instances. This is a Symbol (except for IE11, where is
 /// is a String).
 const ARRAY_RTI_PROPERTY = 'arrayRti';

 /// This embedded global (a function) returns the isolate-specific dispatch-tag
 /// that is used to accelerate interceptor calls.
 const DISPATCH_PROPERTY_NAME = "dispatchPropertyName";

 /// An embedded global that maps a [Type] to the [Interceptor] and constructors
 /// for that type.
 ///
 /// More documentation can be found in the interceptors library (close to its
 /// use).
 const TYPE_TO_INTERCEPTOR_MAP = "typeToInterceptorMap";

 /// The current script's URI when the program was loaded.
 ///
 /// This embedded global is set at startup, just before invoking `main`.
 const CURRENT_SCRIPT = 'currentScript';

 /// Contains a map from load-ids to lists of part indexes.
 ///
 /// To load the deferred library that is represented by the load-id, the runtime
 /// must load all associated URIs (named in DEFERRED_PART_URIS) and initialize
 /// all the loaded hunks (DEFERRED_PART_HASHES).
 ///
 /// This embedded global is only used for deferred loading.
 const DEFERRED_LIBRARY_PARTS = 'deferredLibraryParts';

 /// Contains a list of URIs (Strings), indexed by part.
 ///
 /// The lists in the DEFERRED_LIBRARY_PARTS map contain indexes into this list.
 ///
 /// This embedded global is only used for deferred loading.
 const DEFERRED_PART_URIS = 'deferredPartUris';

 /// Contains a list of hashes, indexed by part.
 ///
 /// The lists in the DEFERRED_LIBRARY_PARTS map contain indexes into this list.
 ///
 /// The hashes are associated with the URIs of the load-ids (see
 /// [DEFERRED_PART_URIS]). They are SHA1 (or similar) hashes of the code that
 /// must be loaded. By using cryptographic hashes we can (1) handle loading in
 /// the same web page the parts from multiple Dart applications (2) avoid
 /// loading similar code multiple times.
 ///
 /// This embedded global is only used for deferred loading.
 const DEFERRED_PART_HASHES = 'deferredPartHashes';

 /// Initialize a loaded hunk.
 ///
 /// Once a hunk (the code from a deferred URI) has been loaded it must be
 /// initialized. Calling this function with the corresponding hash (see
 /// [DEFERRED_LIBRARY_HASHES]) initializes the code.
 ///
 /// This embedded global is only used for deferred loading.
 const INITIALIZE_LOADED_HUNK = 'initializeLoadedHunk';

 /// Returns, whether a hunk (identified by its hash) has already been loaded.
 ///
 /// This embedded global is only used for deferred loading.
 const IS_HUNK_LOADED = 'isHunkLoaded';

 /// Returns, whether a hunk (identified by its hash) has already been
 /// initialized.
 ///
 /// This embedded global is only used for deferred loading.
 const IS_HUNK_INITIALIZED = 'isHunkInitialized';

 /// A set (implemented as map to booleans) of hunks (identified by hashes) that
 /// have already been initialized.
 ///
 /// This embedded global is only used for deferred loading.
 ///
 /// This global is an emitter-internal embedded global, and not used by the
 /// runtime. The constant remains in this file to make sure that other embedded
 /// globals don't clash with it.
 const DEFERRED_INITIALIZED = 'deferredInitialized';

 /// A 'Universe' object used by 'dart:_rti'.
 ///
 /// This embedded global is used for --experiment-new-rti.
 const RTI_UNIVERSE = 'typeUniverse';

 /// Names that are supported by [JS_GET_NAME].
 // TODO(herhut): Make entries lower case (as in fields) and find a better name.
 enum JsGetName {
   GETTER_PREFIX,
   SETTER_PREFIX,
   CALL_PREFIX,
   CALL_PREFIX0,
   CALL_PREFIX1,
   CALL_PREFIX2,
   CALL_PREFIX3,
   CALL_PREFIX4,
   CALL_PREFIX5,
   CALL_CATCH_ALL,
   REQUIRED_PARAMETER_PROPERTY,
   DEFAULT_VALUES_PROPERTY,
   CALL_NAME_PROPERTY,
   DEFERRED_ACTION_PROPERTY,

   /// Prefix used for generated type test property on classes.
   OPERATOR_IS_PREFIX,

   /// Name used for generated function types on classes and methods.
   SIGNATURE_NAME,

   /// Name of JavaScript property used to store runtime-type information on
   /// instances of parameterized classes.
   RTI_NAME,

   /// String representation of the type of the Future class.
   FUTURE_CLASS_TYPE_NAME,

   /// Field name used for determining if an object or its interceptor has
   /// JavaScript indexing behavior.
   IS_INDEXABLE_FIELD_NAME,

   /// String representation of the type of the null class.
   NULL_CLASS_TYPE_NAME,

   /// String representation of the type of the object class.
   OBJECT_CLASS_TYPE_NAME,

   /// String representation of the type of the List class.
   LIST_CLASS_TYPE_NAME,

   /// Property name for Rti._as field.
   RTI_FIELD_AS,

   /// Property name for Rti._is field.
   RTI_FIELD_IS,
 }

 enum JsBuiltin {
   /// Returns the JavaScript constructor function for Dart's Object class.
   /// This can be used for type tests, as in
   ///
   ///     var constructor = JS_BUILTIN('', JsBuiltin.dartObjectConstructor);
   ///     if (JS('bool', '# instanceof #', obj, constructor))
   ///       ...
   dartObjectConstructor,

   /// Returns the JavaScript constructor function for the runtime's Closure
   /// class, the base class of all closure objects.  This can be used for type
   /// tests, as in
   ///
   ///     var constructor = JS_BUILTIN('', JsBuiltin.dartClosureConstructor);
   ///     if (JS('bool', '# instanceof #', obj, constructor))
   ///       ...
   dartClosureConstructor,

   /// Returns true if the given type is a type argument of a js-interop class
   /// or a supertype of a js-interop class.
   ///
   ///     JS_BUILTIN('bool', JsBuiltin.isJsInteropTypeArgument, o)
   isJsInteropTypeArgument,

   /// Returns the metadata of the given [index].
   ///
   ///     JS_BUILTIN('returns:var;effects:none;depends:none',
   ///                JsBuiltin.getMetadata, index);
   getMetadata,

   /// Returns the type of the given [index].
   ///
   ///     JS_BUILTIN('returns:var;effects:none;depends:none',
   ///                JsBuiltin.getType, index);
   getType,
 }

 /// Names of fields of the Rti Universe object.
 class RtiUniverseFieldNames {
   static String evalCache = 'eC';
   static String typeRules = 'tR';
   static String erasedTypes = 'eT';
   static String typeParameterVariances = 'tPV';
   static String sharedEmptyArray = 'sEA';
 }
	// 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.

	/// Contains the names of globals that are embedded into the output by the
	/// compiler.
	///
	/// Variables embedded this way should be access with `JS_EMBEDDED_GLOBAL` from
	/// the `_foreign_helper` library.
	///
	/// This library is shared between the compiler and the runtime system.
	library dart2js._embedded_names;

	/// The name of the property that is used to find the native superclass of
	/// an extended class.
	///
	/// Every class that extends a native class has this property set on its
	/// native class.
	const NATIVE_SUPERCLASS_TAG_NAME = r"$nativeSuperclassTag";

	/// The name of the static-function property name.
	///
	/// This property is set for all tear-offs of static functions, and provides
	/// the static function's unique (potentially minified) name.
	const STATIC_FUNCTION_NAME_PROPERTY_NAME = r'$static_name';

	/// The name of a property on the constructor function of Dart Object
	/// and interceptor types, used for caching Rti types.
	const CONSTRUCTOR_RTI_CACHE_PROPERTY_NAME = r'$ccache';

	/// The name of the embedded global for metadata.
	///
	/// Use [JsBuiltin.getMetadata] instead of directly accessing this embedded
	/// global.
	const METADATA = 'metadata';

	/// A list of types used in the program e.g. for reflection or encoding of
	/// function types.
	///
	/// Use [JsBuiltin.getType] instead of directly accessing this embedded global.
	const TYPES = 'types';

	/// A JS map from mangled global names to their unmangled names.
	///
	/// If the program does not use reflection, this embedded global may be empty
	/// (but not null or undefined).
	const MANGLED_GLOBAL_NAMES = 'mangledGlobalNames';

	/// A JS map from mangled instance names to their unmangled names.
	///
	/// This embedded global is mainly used for reflection, but is also used to
	/// map const-symbols (`const Symbol('x')`) to the mangled instance names.
	///
	/// This embedded global may be empty (but not null or undefined).
	const MANGLED_NAMES = 'mangledNames';

	/// A JS map from dispatch tags (usually constructor names of DOM classes) to
	/// interceptor class. This map is used to find the correct interceptor for
	/// native classes.
	///
	/// This embedded global is used for natives.
	const INTERCEPTORS_BY_TAG = 'interceptorsByTag';

	/// A JS map from dispatch tags (usually constructor names of DOM classes) to
	/// booleans. Every tag entry of [INTERCEPTORS_BY_TAG] has a corresponding
	/// entry in the leaf-tags map.
	///
	/// A tag-entry is true, when a class can be treated as leaf class in the
	/// hierarchy. That is, even though it might have subclasses, all subclasses
	/// have the same code for the used methods.
	///
	/// This embedded global is used for natives.
	const LEAF_TAGS = 'leafTags';

	/// A JS function that returns the isolate tag for a given name.
	///
	/// This function uses the [ISOLATE_TAG] (below) to construct a name that is
	/// unique per isolate.
	///
	/// This embedded global is used for natives.
	// TODO(floitsch): should we rename this variable to avoid confusion with
	// [INTERCEPTORS_BY_TAG] and [LEAF_TAGS].
	const GET_ISOLATE_TAG = 'getIsolateTag';

	/// A string that is different for each running isolate.
	///
	/// When this embedded global is initialized a global variable is used to
	/// ensure that no other running isolate uses the same isolate-tag string.
	///
	/// This embedded global is used for natives.
	// TODO(floitsch): should we rename this variable to avoid confusion with
	// [INTERCEPTORS_BY_TAG] and [LEAF_TAGS].
	const ISOLATE_TAG = 'isolateTag';

	/// An embedded global that contains the property used to store type information
	/// on JavaScript Array instances. This is a Symbol (except for IE11, where is
	/// is a String).
	const ARRAY_RTI_PROPERTY = 'arrayRti';

	/// This embedded global (a function) returns the isolate-specific dispatch-tag
	/// that is used to accelerate interceptor calls.
	const DISPATCH_PROPERTY_NAME = "dispatchPropertyName";

	/// An embedded global that maps a [Type] to the [Interceptor] and constructors
	/// for that type.
	///
	/// More documentation can be found in the interceptors library (close to its
	/// use).
	const TYPE_TO_INTERCEPTOR_MAP = "typeToInterceptorMap";

	/// The current script's URI when the program was loaded.
	///
	/// This embedded global is set at startup, just before invoking `main`.
	const CURRENT_SCRIPT = 'currentScript';

	/// Contains a map from load-ids to lists of part indexes.
	///
	/// To load the deferred library that is represented by the load-id, the runtime
	/// must load all associated URIs (named in DEFERRED_PART_URIS) and initialize
	/// all the loaded hunks (DEFERRED_PART_HASHES).
	///
	/// This embedded global is only used for deferred loading.
	const DEFERRED_LIBRARY_PARTS = 'deferredLibraryParts';

	/// Contains a list of URIs (Strings), indexed by part.
	///
	/// The lists in the DEFERRED_LIBRARY_PARTS map contain indexes into this list.
	///
	/// This embedded global is only used for deferred loading.
	const DEFERRED_PART_URIS = 'deferredPartUris';

	/// Contains a list of hashes, indexed by part.
	///
	/// The lists in the DEFERRED_LIBRARY_PARTS map contain indexes into this list.
	///
	/// The hashes are associated with the URIs of the load-ids (see
	/// [DEFERRED_PART_URIS]). They are SHA1 (or similar) hashes of the code that
	/// must be loaded. By using cryptographic hashes we can (1) handle loading in
	/// the same web page the parts from multiple Dart applications (2) avoid
	/// loading similar code multiple times.
	///
	/// This embedded global is only used for deferred loading.
	const DEFERRED_PART_HASHES = 'deferredPartHashes';

	/// Initialize a loaded hunk.
	///
	/// Once a hunk (the code from a deferred URI) has been loaded it must be
	/// initialized. Calling this function with the corresponding hash (see
	/// [DEFERRED_LIBRARY_HASHES]) initializes the code.
	///
	/// This embedded global is only used for deferred loading.
	const INITIALIZE_LOADED_HUNK = 'initializeLoadedHunk';

	/// Returns, whether a hunk (identified by its hash) has already been loaded.
	///
	/// This embedded global is only used for deferred loading.
	const IS_HUNK_LOADED = 'isHunkLoaded';

	/// Returns, whether a hunk (identified by its hash) has already been
	/// initialized.
	///
	/// This embedded global is only used for deferred loading.
	const IS_HUNK_INITIALIZED = 'isHunkInitialized';

	/// A set (implemented as map to booleans) of hunks (identified by hashes) that
	/// have already been initialized.
	///
	/// This embedded global is only used for deferred loading.
	///
	/// This global is an emitter-internal embedded global, and not used by the
	/// runtime. The constant remains in this file to make sure that other embedded
	/// globals don't clash with it.
	const DEFERRED_INITIALIZED = 'deferredInitialized';

	/// A 'Universe' object used by 'dart:_rti'.
	///
	/// This embedded global is used for --experiment-new-rti.
	const RTI_UNIVERSE = 'typeUniverse';

	/// Names that are supported by [JS_GET_NAME].
	// TODO(herhut): Make entries lower case (as in fields) and find a better name.
	enum JsGetName {
	GETTER_PREFIX,
	SETTER_PREFIX,
	CALL_PREFIX,
	CALL_PREFIX0,
	CALL_PREFIX1,
	CALL_PREFIX2,
	CALL_PREFIX3,
	CALL_PREFIX4,
	CALL_PREFIX5,
	CALL_CATCH_ALL,
	REQUIRED_PARAMETER_PROPERTY,
	DEFAULT_VALUES_PROPERTY,
	CALL_NAME_PROPERTY,
	DEFERRED_ACTION_PROPERTY,

	/// Prefix used for generated type test property on classes.
	OPERATOR_IS_PREFIX,

	/// Name used for generated function types on classes and methods.
	SIGNATURE_NAME,

	/// Name of JavaScript property used to store runtime-type information on
	/// instances of parameterized classes.
	RTI_NAME,

	/// String representation of the type of the Future class.
	FUTURE_CLASS_TYPE_NAME,

	/// Field name used for determining if an object or its interceptor has
	/// JavaScript indexing behavior.
	IS_INDEXABLE_FIELD_NAME,

	/// String representation of the type of the null class.
	NULL_CLASS_TYPE_NAME,

	/// String representation of the type of the object class.
	OBJECT_CLASS_TYPE_NAME,

	/// String representation of the type of the List class.
	LIST_CLASS_TYPE_NAME,

	/// Property name for Rti._as field.
	RTI_FIELD_AS,

	/// Property name for Rti._is field.
	RTI_FIELD_IS,
	}

	enum JsBuiltin {
	/// Returns the JavaScript constructor function for Dart's Object class.
	/// This can be used for type tests, as in
	///
	/// var constructor = JS_BUILTIN('', JsBuiltin.dartObjectConstructor);
	/// if (JS('bool', '# instanceof #', obj, constructor))
	/// ...
	dartObjectConstructor,

	/// Returns the JavaScript constructor function for the runtime's Closure
	/// class, the base class of all closure objects. This can be used for type
	/// tests, as in
	///
	/// var constructor = JS_BUILTIN('', JsBuiltin.dartClosureConstructor);
	/// if (JS('bool', '# instanceof #', obj, constructor))
	/// ...
	dartClosureConstructor,

	/// Returns true if the given type is a type argument of a js-interop class
	/// or a supertype of a js-interop class.
	///
	/// JS_BUILTIN('bool', JsBuiltin.isJsInteropTypeArgument, o)
	isJsInteropTypeArgument,

	/// Returns the metadata of the given [index].
	///
	/// JS_BUILTIN('returns:var;effects:none;depends:none',
	/// JsBuiltin.getMetadata, index);
	getMetadata,

	/// Returns the type of the given [index].
	///
	/// JS_BUILTIN('returns:var;effects:none;depends:none',
	/// JsBuiltin.getType, index);
	getType,
	}

	/// Names of fields of the Rti Universe object.
	class RtiUniverseFieldNames {
	static String evalCache = 'eC';
	static String typeRules = 'tR';
	static String erasedTypes = 'eT';
	static String typeParameterVariances = 'tPV';
	static String sharedEmptyArray = 'sEA';
	}