flutter-embedding-native-views
Embed native views from Android, iOS, or macOS into Flutter applications, achieving seamless integration of hybrid UIs.
npx skills add flutter/skills --skill flutter-embedding-native-viewsBefore / After Comparison
1 组Integrating complex native components (such as maps, web views) into Flutter applications is very difficult.
Easily embed native Android, iOS, or macOS views into Flutter applications for seamless integration.
Integrating Platform Views and Web Content
Contents
- Platform Views Architecture
- Web Embedding Architecture
- Workflow: Implementing Android Platform Views
- Workflow: Implementing iOS Platform Views
- Workflow: Embedding Flutter in Web Applications
- Examples
Platform Views Architecture
Platform Views allow embedding native views (Android, iOS, macOS) directly into a Flutter application, enabling the application of transforms, clips, and opacity from Dart.
Android Implementations (API 23+)
Choose the appropriate implementation based on your performance and fidelity requirements:
- Hybrid Composition: Renders Flutter content into a texture and uses
SurfaceFlingerto compose both.- Pros: Best performance and fidelity for Android views.
- Cons: Lowers overall application FPS. Certain Flutter widget transformations will not work.
- Texture Layer (Texture Layer Hybrid Composition): Renders Platform Views into a texture. Flutter draws them via the texture and renders its own content directly into a Surface.
- Pros: Best performance for Flutter rendering. All transformations work correctly.
- Cons: Quick scrolling (e.g., WebViews) can be janky.
SurfaceViewis problematic (breaks accessibility). Text magnifiers break unless Flutter is rendered into aTextureView.
iOS & macOS Implementations
- iOS: Uses Hybrid Composition exclusively. The native
UIViewis appended to the view hierarchy.- Limitations:
ShaderMaskandColorFilteredwidgets are not supported.BackdropFilterhas composition limitations.
- Limitations:
- macOS: Uses Hybrid Composition (
NSView).- Limitations: Not fully functional in current releases (e.g., gesture support is unavailable).
Performance Mitigation
Mitigate performance drops during complex Dart animations by rendering a screenshot of the native view as a placeholder texture while the animation runs.
Web Embedding Architecture
Embed Flutter into existing web applications (Vanilla JS, React, Angular, etc.) using either Full Page mode or Embedded (Multi-view) mode.
- Full Page Mode: Flutter takes over the entire browser window. Use an
iframeif you need to constrain the Flutter app without modifying the Flutter bootstrap process. - Embedded Mode (Multi-view): Render Flutter into specific HTML elements (
divs). RequiresmultiViewEnabled: trueduring engine initialization.- Manage views from JavaScript using
app.addView()andapp.removeView(). - In Dart, replace
runAppwithrunWidget. - Manage the dynamic list of views using
WidgetsBinding.instance.platformDispatcher.viewsand render them usingViewCollectionandViewwidgets.
- Manage views from JavaScript using
Workflow: Implementing Android Platform Views
Follow this sequential workflow to implement a Platform View on Android.
Task Progress:
- 1. Determine the composition mode (Hybrid vs. Texture Layer).
- 2. Implement the Dart widget.
- 3. Implement the native Android View and Factory.
- 4. Register the Platform View in the Android host.
- 5. Run validator -> review rendering -> fix manual invalidation issues.
1. Dart Implementation
If using Hybrid Composition, use PlatformViewLink, AndroidViewSurface, and PlatformViewsService.initSurfaceAndroidView.
If using Texture Layer, use the AndroidView widget.
2. Native Implementation
Create a class implementing io.flutter.plugin.platform.PlatformView that returns your native android.view.View.
Create a factory extending PlatformViewFactory to instantiate your view.
3. Registration
Register the factory in your MainActivity.kt (or plugin) using flutterEngine.platformViewsController.registry.registerViewFactory.
Note: If your native view uses SurfaceView or SurfaceTexture, manually call invalidate on the View or its parent when content changes, as they do not invalidate themselves automatically.
Workflow: Implementing iOS Platform Views
Follow this sequential workflow to implement a Platform View on iOS.
Task Progress:
- 1. Implement the Dart widget using
UiKitView. - 2. Implement the native iOS View (
FlutterPlatformView) and Factory (FlutterPlatformViewFactory). - 3. Register the Platform View in
AppDelegate.swiftor the plugin registrar. - 4. Run validator -> review composition limitations -> fix unsupported filters.
Workflow: Embedding Flutter in Web Applications
Follow this sequential workflow to embed Flutter into an existing web DOM.
Task Progress:
- 1. Update
flutter_bootstrap.jsto enable multi-view. - 2. Update
main.dartto userunWidgetandViewCollection. - 3. Implement JavaScript logic to add/remove host elements.
- 4. Run validator -> review view constraints -> fix CSS conflicts.
1. JavaScript Configuration
In flutter_bootstrap.js, initialize the engine with multiViewEnabled: true.
Use the returned app object to add views: app.addView({ hostElement: document.getElementById('my-div') }).
2. Dart Configuration
Replace runApp() with runWidget().
Create a root widget that listens to WidgetsBindingObserver.didChangeMetrics.
Map over WidgetsBinding.instance.platformDispatcher.views to create a View widget for each attached FlutterView, and wrap them all in a ViewCollection.
Examples
Example: Android Texture Layer (Dart)
import 'package:flutter/material.dart';
import 'package:flutter/services.dart';
class NativeAndroidView extends StatelessWidget {
@override
Widget build(BuildContext context) {
const String viewType = 'my_native_view';
final Map<String, dynamic> creationParams = <String, dynamic>{};
return AndroidView(
viewType: viewType,
layoutDirection: TextDirection.ltr,
creationParams: creationParams,
creationParamsCodec: const StandardMessageCodec(),
);
}
}
Example: Web Multi-View Initialization (JavaScript)
_flutter.loader.load({
onEntrypointLoaded: async function(engineInitializer) {
let engine = await engineInitializer.initializeEngine({
multiViewEnabled: true,
});
let app = await engine.runApp();
// Add a view to a specific DOM element
let viewId = app.addView({
hostElement: document.querySelector('#flutter-host-container'),
initialData: { customData: 'Hello from JS' }
});
}
});
Example: Web Multi-View Root Widget (Dart)
import 'dart:ui' show FlutterView;
import 'package:flutter/widgets.dart';
void main() {
runWidget(MultiViewApp(viewBuilder: (context) => const MyEmbeddedWidget()));
}
class MultiViewApp extends StatefulWidget {
final WidgetBuilder viewBuilder;
const MultiViewApp({super.key, required this.viewBuilder});
@override
State<MultiViewApp> createState() => _MultiViewAppState();
}
class _MultiViewAppState extends State<MultiViewApp> with WidgetsBindingObserver {
Map<Object, Widget> _views = {};
@override
void initState() {
super.initState();
WidgetsBinding.instance.addObserver(this);
_updateViews();
}
@override
void didChangeMetrics() => _updateViews();
void _updateViews() {
final newViews = <Object, Widget>{};
for (final FlutterView view in WidgetsBinding.instance.platformDispatcher.views) {
newViews[view.viewId] = _views[view.viewId] ?? View(
view: view,
child: Builder(builder: widget.viewBuilder),
);
}
setState(() => _views = newViews);
}
@override
void dispose() {
WidgetsBinding.instance.removeObserver(this);
super.dispose();
}
@override
Widget build(BuildContext context) {
return ViewCollection(views: _views.values.toList(growable: false));
}
}
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