Dart web platform libraries e.g. dart:html is partially hand-written and partially generated, with the code generation using the Chrome IDL as the source of truth for many browser interfaces. This introduces a dependency on the version of the IDL and doesn’t always match up with other browser interfaces.
Currently, we do not intend on updating our scripts to use a newer version of the IDL, so APIs and classes in these libraries may be inaccurate.
In order to work around this, we ask users to leverage JS interop. Longer term, we intend to revamp our web library offerings to be more robust and reliable.
The following are workarounds to common issues you might see with using the web platform libraries.
As mentioned above, there exists stale interfaces. While some of these may be fixed in the source code, many might not.
In order to work around this, you can use the annotation @staticInterop from package:js.
Let’s look at an example. FileReader is a dart:html interface that is missing the API readAsBinaryString (#42834). We can work around this by doing something like the following:
@JS() library workarounds; import 'dart:html'; import 'package:async_helper/async_minitest.dart'; import 'package:expect/expect.dart'; import 'package:js/js.dart'; @JS() @staticInterop class JSFileReader {} extension JSFileReaderExtension on JSFileReader { external void readAsBinaryString(Blob blob); } void main() async { var reader = new FileReader(); reader.onLoad.listen(expectAsync((event) { String result = reader.result as String; Expect.equals(result, '00000000'); })); var jsReader = reader as JSFileReader; jsReader.readAsBinaryString(new Blob(['00000000'])); }
Alternatively, you can directly use the js_util library, using the methods getProperty, setProperty, callMethod, and callConstructor.
import 'dart:html'; import 'dart:js_util' as js_util; import 'package:async_helper/async_minitest.dart'; import 'package:expect/expect.dart'; void main() async { var reader = new FileReader(); reader.onLoad.listen(expectAsync((event) { String result = reader.result as String; Expect.equals(result, '00000000'); })); js_util.callMethod(reader, 'readAsBinaryString', [new Blob(['00000000'])]); // We can manipulate properties as well. js_util.setProperty(reader, 'foo', 'bar'); // reader.foo is now ‘bar’ Expect.equals(js_util.getProperty(reader, 'foo'), 'bar'); }
In the case where the API is missing a constructor, we can define a constructor within a @staticInterop class. Note that constructors, external or otherwise, are disallowed in extensions currently. For example:
@JS() library workarounds; import 'dart:js_util' as js_util; import 'package:expect/expect.dart'; import 'package:js/js.dart'; @JS('KeyboardEvent') @staticInterop class JSKeyboardEvent { external JSKeyboardEvent(String typeArg, Object keyboardEventInit); } extension JSKeyboardEventExtension on JSKeyboardEvent { external String get key; } void main() { var event = JSKeyboardEvent('KeyboardEvent', js_util.jsify({'key': 'A'})); Expect.equals(event.key, 'A'); }
or with js_util's callConstructor:
import 'dart:html'; import 'dart:js_util' as js_util; import 'package:expect/expect.dart'; void main() { List<dynamic> eventArgs = <dynamic>[ 'KeyboardEvent', <String, dynamic>{'key': 'A'} ]; KeyboardEvent event = js_util.callConstructor( js_util.getProperty(window, 'KeyboardEvent'), js_util.jsify(eventArgs)); Expect.equals(event.key, 'A'); }
There are several native interfaces that are suppressed e.g. USBDevice (#42200) due to historical reasons. These native interfaces are marked with @Native, are private, and have no attributes associated with them. Therefore, unlike other @Native objects, we can’t access any of the APIs or attributes associated with this interface. We can again either use the @staticInterop annotation or use the js_util library to circumvent this issue. For example, we can abstract a _SubtleCrypto object:
@JS() library workarounds; import 'dart:html'; import 'dart:js_util' as js_util; import 'dart:typed_data'; import 'package:js/js.dart'; @JS() external Crypto get crypto; @JS() @staticInterop class JSSubtleCrypto {} extension JSSubtleCryptoExtension on JSSubtleCrypto { external dynamic digest(String algorithm, Uint8List data); Future<ByteBuffer> digestFuture(String algorithm, Uint8List data) => js_util.promiseToFuture(digest(algorithm, data)); } void main() async { var subtle = crypto.subtle! as JSSubtleCrypto; var digest = await subtle.digestFuture('SHA-256', Uint8List(16)); }
or with js_util:
@JS() library workarounds; import 'dart:html'; import 'dart:js_util' as js_util; import 'dart:typed_data'; import 'package:js/js.dart'; @JS() external Crypto get crypto; void main() async { var subtle = crypto.subtle!; var array = Uint8List(16); var promise = js_util.promiseToFuture<ByteBuffer>(js_util .callMethod(subtle, 'digest', ['SHA-256', array])); // SubtleCrypto.digest var digest = await promise; }
@staticInterop package:js typesAvoid casting these native objects to non-@staticInterop package:js types e.g.
@JS() library workarounds; import 'dart:html'; import 'package:js/js.dart'; @JS() external Crypto get crypto; @JS() class SubtleCrypto {} void main() { SubtleCrypto subtle = crypto.subtle! as SubtleCrypto; }
With the above, you’ll see a static error:
Error: Non-static JS interop class 'SubtleCrypto' conflicts with natively supported class '_SubtleCrypto' in 'dart:html'.
This is because the types in the @Native annotation are reserved and the above leads to namespace conflicts between the @Native type and the user JS interop type in the compiler. @staticInterop classes, however, don't have this issue.
@Native typesOne alternative that seems viable is to use a static extension on the @Native type in dart:html directly, e.g.
extension FileReaderExtension on FileReader { external void readAsBinaryString(Blob blob); }
This may work fine, as long as FileReader does not add readAsBinaryString. In the case where this API is added to the class, Dart will prioritize that instance method over the extension method you wrote. This may lead to issues, like a type error when the signatures between the two methods are incompatible, or confusing runtime behavior.
Furthermore, you may come across API conflicts with other users who have also defined extension methods on these @Native types.
To avoid the above, it's recommended you stick with @staticInterop.
In the future, when views/extension types are introduced to the language, this guidance will likely change so that you can directly use views on @Native types.