sdk/lib/js_util/js_util.dart - sdk.git - Git at Google

 // Copyright (c) 2016, 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.

 /// Utility methods to manipulate `package:js` annotated JavaScript interop
 /// objects in cases where the name to call is not known at runtime.
 ///
 /// You should only use these methods when the same effect cannot be achieved
 /// with `@JS()` annotations.
 ///
 /// {@category Web}
 library dart.js_util;

 import 'dart:_foreign_helper' show JS;
 import 'dart:collection' show HashMap;
 import 'dart:async' show Completer;
 import 'dart:_js_helper'
     show convertDartClosureToJS, assertInterop, assertInteropArgs;

 /// Recursively converts a JSON-like collection to JavaScript compatible
 /// representation.
 ///
 /// WARNING: performance of this method is much worse than other util
 /// methods in this library. Only use this method as a last resort. Prefer
 /// instead to use `@anonymous` `@JS()` annotated classes to create map-like
 /// objects for JS interop.
 ///
 /// The argument must be a [Map] or [Iterable], the contents of which are also
 /// deeply converted. Maps are converted into JavaScript objects. Iterables are
 /// converted into arrays. Strings, numbers, bools, and `@JS()` annotated
 /// objects are passed through unmodified. Dart objects are also passed through
 /// unmodified, but their members aren't usable from JavaScript.
 dynamic jsify(Object object) {
   if ((object is! Map) && (object is! Iterable)) {
     throw ArgumentError("object must be a Map or Iterable");
   }
   return _convertDataTree(object);
 }

 Object _convertDataTree(Object data) {
   var _convertedObjects = HashMap.identity();

   Object? _convert(Object? o) {
     if (_convertedObjects.containsKey(o)) {
       return _convertedObjects[o];
     }
     if (o is Map) {
       final convertedMap = JS('=Object', '{}');
       _convertedObjects[o] = convertedMap;
       for (var key in o.keys) {
         JS('=Object', '#[#]=#', convertedMap, key, _convert(o[key]));
       }
       return convertedMap;
     } else if (o is Iterable) {
       var convertedList = [];
       _convertedObjects[o] = convertedList;
       convertedList.addAll(o.map(_convert));
       return convertedList;
     } else {
       return o;
     }
   }

   return _convert(data)!;
 }

 dynamic newObject() => JS('=Object', '{}');

 bool hasProperty(Object o, Object name) => JS('bool', '# in #', name, o);

 // A CFE transformation will optimize all calls to `getProperty`.
 dynamic getProperty(Object o, Object name) =>
     JS('Object|Null', '#[#]', o, name);

 // A CFE transformation may optimize calls to `setProperty`, when [value] is
 // statically known to be a non-function.
 dynamic setProperty(Object o, Object name, Object? value) {
   assertInterop(value);
   return JS('', '#[#]=#', o, name, value);
 }

 /// Unchecked version of setProperty, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _setPropertyUnchecked(Object o, Object name, Object? value) {
   return JS('', '#[#]=#', o, name, value);
 }

 // A CFE transformation may optimize calls to `callMethod` when [args] is a
 // a list literal or const list containing at most 4 values, all of which are
 // statically known to be non-functions.
 dynamic callMethod(Object o, String method, List<Object?> args) {
   assertInteropArgs(args);
   return JS('Object|Null', '#[#].apply(#, #)', o, method, o, args);
 }

 /// Unchecked version for 0 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callMethodUnchecked0(Object o, String method) {
   return JS('Object|Null', '#[#]()', o, method);
 }

 /// Unchecked version for 1 argument, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callMethodUnchecked1(Object o, String method, Object? arg1) {
   return JS('Object|Null', '#[#](#)', o, method, arg1);
 }

 /// Unchecked version for 2 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callMethodUnchecked2(
     Object o, String method, Object? arg1, Object? arg2) {
   return JS('Object|Null', '#[#](#, #)', o, method, arg1, arg2);
 }

 /// Unchecked version for 3 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callMethodUnchecked3(
     Object o, String method, Object? arg1, Object? arg2, Object? arg3) {
   return JS('Object|Null', '#[#](#, #, #)', o, method, arg1, arg2, arg3);
 }

 /// Unchecked version for 4 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callMethodUnchecked4(Object o, String method, Object? arg1,
     Object? arg2, Object? arg3, Object? arg4) {
   return JS(
       'Object|Null', '#[#](#, #, #, #)', o, method, arg1, arg2, arg3, arg4);
 }

 /// Check whether [o] is an instance of [type].
 ///
 /// The value in [type] is expected to be a JS-interop object that
 /// represents a valid JavaScript constructor function.
 bool instanceof(Object? o, Object type) =>
     JS('bool', '# instanceof #', o, type);

 dynamic callConstructor(Object constr, List<Object?>? arguments) {
   if (arguments == null) {
     return JS('Object', 'new #()', constr);
   } else {
     assertInteropArgs(arguments);
   }

   if (JS('bool', '# instanceof Array', arguments)) {
     int argumentCount = JS('int', '#.length', arguments);
     switch (argumentCount) {
       case 0:
         return JS('Object', 'new #()', constr);

       case 1:
         var arg0 = JS('', '#[0]', arguments);
         return JS('Object', 'new #(#)', constr, arg0);

       case 2:
         var arg0 = JS('', '#[0]', arguments);
         var arg1 = JS('', '#[1]', arguments);
         return JS('Object', 'new #(#, #)', constr, arg0, arg1);

       case 3:
         var arg0 = JS('', '#[0]', arguments);
         var arg1 = JS('', '#[1]', arguments);
         var arg2 = JS('', '#[2]', arguments);
         return JS('Object', 'new #(#, #, #)', constr, arg0, arg1, arg2);

       case 4:
         var arg0 = JS('', '#[0]', arguments);
         var arg1 = JS('', '#[1]', arguments);
         var arg2 = JS('', '#[2]', arguments);
         var arg3 = JS('', '#[3]', arguments);
         return JS(
             'Object', 'new #(#, #, #, #)', constr, arg0, arg1, arg2, arg3);
     }
   }

   // The following code solves the problem of invoking a JavaScript
   // constructor with an unknown number arguments.
   // First bind the constructor to the argument list using bind.apply().
   // The first argument to bind() is the binding of 't', so add 'null' to
   // the arguments list passed to apply().
   // After that, use the JavaScript 'new' operator which overrides any binding
   // of 'this' with the new instance.
   var args = <dynamic>[null]..addAll(arguments);
   var factoryFunction = JS('', '#.bind.apply(#, #)', constr, constr, args);
   // Without this line, calling factoryFunction as a constructor throws
   JS('String', 'String(#)', factoryFunction);
   // This could return an UnknownJavaScriptObject, or a native
   // object for which there is an interceptor
   return JS('Object', 'new #()', factoryFunction);

   // TODO(sra): Investigate:
   //
   //     var jsObj = JS('', 'Object.create(#.prototype)', constr);
   //     JS('', '#.apply(#, #)', constr, jsObj,
   //         []..addAll(arguments.map(_convertToJS)));
   //     return _wrapToDart(jsObj);
 }

 /// Unchecked version for 0 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callConstructorUnchecked0(Object constr) {
   return JS('Object', 'new #()', constr);
 }

 /// Unchecked version for 1 argument, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callConstructorUnchecked1(Object constr, Object? arg1) {
   return JS('Object', 'new #(#)', constr, arg1);
 }

 /// Unchecked version for 2 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callConstructorUnchecked2(Object constr, Object? arg1, Object? arg2) {
   return JS('Object', 'new #(#, #)', constr, arg1, arg2);
 }

 /// Unchecked version for 3 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callConstructorUnchecked3(
     Object constr, Object? arg1, Object? arg2, Object? arg3) {
   return JS('Object', 'new #(#, #, #)', constr, arg1, arg2, arg3);
 }

 /// Unchecked version for 4 arguments, only used in a CFE transformation.
 @pragma('dart2js:tryInline')
 dynamic _callConstructorUnchecked4(
     Object constr, Object? arg1, Object? arg2, Object? arg3, Object? arg4) {
   return JS('Object', 'new #(#, #, #, #)', constr, arg1, arg2, arg3, arg4);
 }

 /// Exception for when the promise is rejected with a `null` or `undefined`
 /// value.
 ///
 /// This is public to allow users to catch when the promise is rejected with
 /// `null` or `undefined` versus some other value.
 class NullRejectionException implements Exception {
   // Indicates whether the value is `undefined` or `null`.
   final bool isUndefined;

   NullRejectionException._(this.isUndefined);

   @override
   String toString() {
     var value = this.isUndefined ? 'undefined' : 'null';
     return 'Promise was rejected with a value of `$value`.';
   }
 }

 /// Converts a JavaScript Promise to a Dart [Future].
 ///
 /// ```dart template:none
 /// @JS()
 /// external Promise<num> get threePromise; // Resolves to 3
 ///
 /// final Future<num> threeFuture = promiseToFuture(threePromise);
 ///
 /// final three = await threeFuture; // == 3
 /// ```
 Future<T> promiseToFuture<T>(Object jsPromise) {
   final completer = Completer<T>();

   final success = convertDartClosureToJS((r) => completer.complete(r), 1);
   final error = convertDartClosureToJS((e) {
     // Note that `completeError` expects a non-nullable error regardless of
     // whether null-safety is enabled, so a `NullRejectionException` is always
     // provided if the error is `null` or `undefined`.
     if (e == null) {
       return completer.completeError(
           NullRejectionException._(JS('bool', '# === undefined', e)));
     }
     return completer.completeError(e);
   }, 1);

   JS('', '#.then(#, #)', jsPromise, success, error);
   return completer.future;
 }
	// Copyright (c) 2016, 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.

	/// Utility methods to manipulate `package:js` annotated JavaScript interop
	/// objects in cases where the name to call is not known at runtime.
	///
	/// You should only use these methods when the same effect cannot be achieved
	/// with `@JS()` annotations.
	///
	/// {@category Web}
	library dart.js_util;

	import 'dart:_foreign_helper' show JS;
	import 'dart:collection' show HashMap;
	import 'dart:async' show Completer;
	import 'dart:_js_helper'
	show convertDartClosureToJS, assertInterop, assertInteropArgs;

	/// Recursively converts a JSON-like collection to JavaScript compatible
	/// representation.
	///
	/// WARNING: performance of this method is much worse than other util
	/// methods in this library. Only use this method as a last resort. Prefer
	/// instead to use `@anonymous` `@JS()` annotated classes to create map-like
	/// objects for JS interop.
	///
	/// The argument must be a [Map] or [Iterable], the contents of which are also
	/// deeply converted. Maps are converted into JavaScript objects. Iterables are
	/// converted into arrays. Strings, numbers, bools, and `@JS()` annotated
	/// objects are passed through unmodified. Dart objects are also passed through
	/// unmodified, but their members aren't usable from JavaScript.
	dynamic jsify(Object object) {
	if ((object is! Map) && (object is! Iterable)) {
	throw ArgumentError("object must be a Map or Iterable");
	}
	return _convertDataTree(object);
	}

	Object _convertDataTree(Object data) {
	var _convertedObjects = HashMap.identity();

	Object? _convert(Object? o) {
	if (_convertedObjects.containsKey(o)) {
	return _convertedObjects[o];
	}
	if (o is Map) {
	final convertedMap = JS('=Object', '{}');
	_convertedObjects[o] = convertedMap;
	for (var key in o.keys) {
	JS('=Object', '#[#]=#', convertedMap, key, _convert(o[key]));
	}
	return convertedMap;
	} else if (o is Iterable) {
	var convertedList = [];
	_convertedObjects[o] = convertedList;
	convertedList.addAll(o.map(_convert));
	return convertedList;
	} else {
	return o;
	}
	}

	return _convert(data)!;
	}

	dynamic newObject() => JS('=Object', '{}');

	bool hasProperty(Object o, Object name) => JS('bool', '# in #', name, o);

	// A CFE transformation will optimize all calls to `getProperty`.
	dynamic getProperty(Object o, Object name) =>
	JS('Object\|Null', '#[#]', o, name);

	// A CFE transformation may optimize calls to `setProperty`, when [value] is
	// statically known to be a non-function.
	dynamic setProperty(Object o, Object name, Object? value) {
	assertInterop(value);
	return JS('', '#[#]=#', o, name, value);
	}

	/// Unchecked version of setProperty, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _setPropertyUnchecked(Object o, Object name, Object? value) {
	return JS('', '#[#]=#', o, name, value);
	}

	// A CFE transformation may optimize calls to `callMethod` when [args] is a
	// a list literal or const list containing at most 4 values, all of which are
	// statically known to be non-functions.
	dynamic callMethod(Object o, String method, List<Object?> args) {
	assertInteropArgs(args);
	return JS('Object\|Null', '#[#].apply(#, #)', o, method, o, args);
	}

	/// Unchecked version for 0 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callMethodUnchecked0(Object o, String method) {
	return JS('Object\|Null', '#[#]()', o, method);
	}

	/// Unchecked version for 1 argument, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callMethodUnchecked1(Object o, String method, Object? arg1) {
	return JS('Object\|Null', '#[#](#)', o, method, arg1);
	}

	/// Unchecked version for 2 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callMethodUnchecked2(
	Object o, String method, Object? arg1, Object? arg2) {
	return JS('Object\|Null', '#[#](#, #)', o, method, arg1, arg2);
	}

	/// Unchecked version for 3 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callMethodUnchecked3(
	Object o, String method, Object? arg1, Object? arg2, Object? arg3) {
	return JS('Object\|Null', '#[#](#, #, #)', o, method, arg1, arg2, arg3);
	}

	/// Unchecked version for 4 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callMethodUnchecked4(Object o, String method, Object? arg1,
	Object? arg2, Object? arg3, Object? arg4) {
	return JS(
	'Object\|Null', '#[#](#, #, #, #)', o, method, arg1, arg2, arg3, arg4);
	}

	/// Check whether [o] is an instance of [type].
	///
	/// The value in [type] is expected to be a JS-interop object that
	/// represents a valid JavaScript constructor function.
	bool instanceof(Object? o, Object type) =>
	JS('bool', '# instanceof #', o, type);

	dynamic callConstructor(Object constr, List<Object?>? arguments) {
	if (arguments == null) {
	return JS('Object', 'new #()', constr);
	} else {
	assertInteropArgs(arguments);
	}

	if (JS('bool', '# instanceof Array', arguments)) {
	int argumentCount = JS('int', '#.length', arguments);
	switch (argumentCount) {
	case 0:
	return JS('Object', 'new #()', constr);

	case 1:
	var arg0 = JS('', '#[0]', arguments);
	return JS('Object', 'new #(#)', constr, arg0);

	case 2:
	var arg0 = JS('', '#[0]', arguments);
	var arg1 = JS('', '#[1]', arguments);
	return JS('Object', 'new #(#, #)', constr, arg0, arg1);

	case 3:
	var arg0 = JS('', '#[0]', arguments);
	var arg1 = JS('', '#[1]', arguments);
	var arg2 = JS('', '#[2]', arguments);
	return JS('Object', 'new #(#, #, #)', constr, arg0, arg1, arg2);

	case 4:
	var arg0 = JS('', '#[0]', arguments);
	var arg1 = JS('', '#[1]', arguments);
	var arg2 = JS('', '#[2]', arguments);
	var arg3 = JS('', '#[3]', arguments);
	return JS(
	'Object', 'new #(#, #, #, #)', constr, arg0, arg1, arg2, arg3);
	}
	}

	// The following code solves the problem of invoking a JavaScript
	// constructor with an unknown number arguments.
	// First bind the constructor to the argument list using bind.apply().
	// The first argument to bind() is the binding of 't', so add 'null' to
	// the arguments list passed to apply().
	// After that, use the JavaScript 'new' operator which overrides any binding
	// of 'this' with the new instance.
	var args = <dynamic>[null]..addAll(arguments);
	var factoryFunction = JS('', '#.bind.apply(#, #)', constr, constr, args);
	// Without this line, calling factoryFunction as a constructor throws
	JS('String', 'String(#)', factoryFunction);
	// This could return an UnknownJavaScriptObject, or a native
	// object for which there is an interceptor
	return JS('Object', 'new #()', factoryFunction);

	// TODO(sra): Investigate:
	//
	// var jsObj = JS('', 'Object.create(#.prototype)', constr);
	// JS('', '#.apply(#, #)', constr, jsObj,
	// []..addAll(arguments.map(_convertToJS)));
	// return _wrapToDart(jsObj);
	}

	/// Unchecked version for 0 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callConstructorUnchecked0(Object constr) {
	return JS('Object', 'new #()', constr);
	}

	/// Unchecked version for 1 argument, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callConstructorUnchecked1(Object constr, Object? arg1) {
	return JS('Object', 'new #(#)', constr, arg1);
	}

	/// Unchecked version for 2 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callConstructorUnchecked2(Object constr, Object? arg1, Object? arg2) {
	return JS('Object', 'new #(#, #)', constr, arg1, arg2);
	}

	/// Unchecked version for 3 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callConstructorUnchecked3(
	Object constr, Object? arg1, Object? arg2, Object? arg3) {
	return JS('Object', 'new #(#, #, #)', constr, arg1, arg2, arg3);
	}

	/// Unchecked version for 4 arguments, only used in a CFE transformation.
	@pragma('dart2js:tryInline')
	dynamic _callConstructorUnchecked4(
	Object constr, Object? arg1, Object? arg2, Object? arg3, Object? arg4) {
	return JS('Object', 'new #(#, #, #, #)', constr, arg1, arg2, arg3, arg4);
	}

	/// Exception for when the promise is rejected with a `null` or `undefined`
	/// value.
	///
	/// This is public to allow users to catch when the promise is rejected with
	/// `null` or `undefined` versus some other value.
	class NullRejectionException implements Exception {
	// Indicates whether the value is `undefined` or `null`.
	final bool isUndefined;

	NullRejectionException._(this.isUndefined);

	@override
	String toString() {
	var value = this.isUndefined ? 'undefined' : 'null';
	return 'Promise was rejected with a value of `$value`.';
	}
	}

	/// Converts a JavaScript Promise to a Dart [Future].
	///
	/// ```dart template:none
	/// @JS()
	/// external Promise<num> get threePromise; // Resolves to 3
	///
	/// final Future<num> threeFuture = promiseToFuture(threePromise);
	///
	/// final three = await threeFuture; // == 3
	/// ```
	Future<T> promiseToFuture<T>(Object jsPromise) {
	final completer = Completer<T>();

	final success = convertDartClosureToJS((r) => completer.complete(r), 1);
	final error = convertDartClosureToJS((e) {
	// Note that `completeError` expects a non-nullable error regardless of
	// whether null-safety is enabled, so a `NullRejectionException` is always
	// provided if the error is `null` or `undefined`.
	if (e == null) {
	return completer.completeError(
	NullRejectionException._(JS('bool', '# === undefined', e)));
	}
	return completer.completeError(e);
	}, 1);

	JS('', '#.then(#, #)', jsPromise, success, error);
	return completer.future;
	}