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// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// @dart = 2.12
part of dart.ui;
/// An opaque object representing a composited scene.
///
/// To create a Scene object, use a [SceneBuilder].
///
/// Scene objects can be displayed on the screen using the [FlutterView.render]
/// method.
@pragma('vm:entry-point')
class Scene extends NativeFieldWrapperClass2 {
/// This class is created by the engine, and should not be instantiated
/// or extended directly.
///
/// To create a Scene object, use a [SceneBuilder].
@pragma('vm:entry-point')
Scene._();
/// Creates a raster image representation of the current state of the scene.
/// This is a slow operation that is performed on a background thread.
///
/// Callers must dispose the [Image] when they are done with it. If the result
/// will be shared with other methods or classes, [Image.clone] should be used
/// and each handle created must be disposed.
Future<Image> toImage(int width, int height) {
if (width <= 0 || height <= 0) {
throw Exception('Invalid image dimensions.');
}
return _futurize((_Callback<Image?> callback) => _toImage(width, height, (_Image? image) {
if (image == null) {
callback(null);
} else {
callback(Image._(image));
}
}),
);
}
String? _toImage(int width, int height, _Callback<_Image?> callback) native 'Scene_toImage';
/// Releases the resources used by this scene.
///
/// After calling this function, the scene is cannot be used further.
void dispose() native 'Scene_dispose';
}
// Lightweight wrapper of a native layer object.
//
// This is used to provide a typed API for engine layers to prevent
// incompatible layers from being passed to [SceneBuilder]'s push methods.
// For example, this prevents a layer returned from `pushOpacity` from being
// passed as `oldLayer` to `pushTransform`. This is achieved by having one
// concrete subclass of this class per push method.
abstract class _EngineLayerWrapper implements EngineLayer {
_EngineLayerWrapper._(EngineLayer nativeLayer) : _nativeLayer = nativeLayer;
EngineLayer? _nativeLayer;
@override
void dispose() {
assert(_nativeLayer != null, 'Object disposed');
_nativeLayer!.dispose();
assert(() {
_nativeLayer = null;
return true;
}());
}
// Children of this layer.
//
// Null if this layer has no children. This field is populated only in debug
// mode.
List<_EngineLayerWrapper>? _debugChildren;
// Whether this layer was used as `oldLayer` in a past frame.
//
// It is illegal to use a layer object again after it is passed as an
// `oldLayer` argument.
bool _debugWasUsedAsOldLayer = false;
bool _debugCheckNotUsedAsOldLayer() {
assert(
!_debugWasUsedAsOldLayer,
'Layer $runtimeType was previously used as oldLayer.\n'
'Once a layer is used as oldLayer, it may not be used again. Instead, '
'after calling one of the SceneBuilder.push* methods and passing an oldLayer '
'to it, use the layer returned by the method as oldLayer in subsequent '
'frames.');
return true;
}
}
/// An opaque handle to a transform engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushTransform].
///
/// {@template dart.ui.sceneBuilder.oldLayerCompatibility}
/// `oldLayer` parameter in [SceneBuilder] methods only accepts objects created
/// by the engine. [SceneBuilder] will throw an [AssertionError] if you pass it
/// a custom implementation of this class.
/// {@endtemplate}
class TransformEngineLayer extends _EngineLayerWrapper {
TransformEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to an offset engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushOffset].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class OffsetEngineLayer extends _EngineLayerWrapper {
OffsetEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a clip rect engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushClipRect].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ClipRectEngineLayer extends _EngineLayerWrapper {
ClipRectEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a clip rounded rect engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushClipRRect].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ClipRRectEngineLayer extends _EngineLayerWrapper {
ClipRRectEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a clip path engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushClipPath].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ClipPathEngineLayer extends _EngineLayerWrapper {
ClipPathEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to an opacity engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushOpacity].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class OpacityEngineLayer extends _EngineLayerWrapper {
OpacityEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a color filter engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushColorFilter].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ColorFilterEngineLayer extends _EngineLayerWrapper {
ColorFilterEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to an image filter engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushImageFilter].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ImageFilterEngineLayer extends _EngineLayerWrapper {
ImageFilterEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a backdrop filter engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushBackdropFilter].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class BackdropFilterEngineLayer extends _EngineLayerWrapper {
BackdropFilterEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a shader mask engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushShaderMask].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class ShaderMaskEngineLayer extends _EngineLayerWrapper {
ShaderMaskEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// An opaque handle to a physical shape engine layer.
///
/// Instances of this class are created by [SceneBuilder.pushPhysicalShape].
///
/// {@macro dart.ui.sceneBuilder.oldLayerCompatibility}
class PhysicalShapeEngineLayer extends _EngineLayerWrapper {
PhysicalShapeEngineLayer._(EngineLayer nativeLayer) : super._(nativeLayer);
}
/// Builds a [Scene] containing the given visuals.
///
/// A [Scene] can then be rendered using [FlutterView.render].
///
/// To draw graphical operations onto a [Scene], first create a
/// [Picture] using a [PictureRecorder] and a [Canvas], and then add
/// it to the scene using [addPicture].
class SceneBuilder extends NativeFieldWrapperClass2 {
/// Creates an empty [SceneBuilder] object.
@pragma('vm:entry-point')
SceneBuilder() {
_constructor();
}
void _constructor() native 'SceneBuilder_constructor';
// Layers used in this scene.
//
// The key is the layer used. The value is the description of what the layer
// is used for, e.g. "pushOpacity" or "addRetained".
Map<EngineLayer, String> _usedLayers = <EngineLayer, String>{};
// In debug mode checks that the `layer` is only used once in a given scene.
bool _debugCheckUsedOnce(EngineLayer layer, String usage) {
assert(() {
assert(
!_usedLayers.containsKey(layer),
'Layer ${layer.runtimeType} already used.\n'
'The layer is already being used as ${_usedLayers[layer]} in this scene.\n'
'A layer may only be used once in a given scene.');
_usedLayers[layer] = usage;
return true;
}());
return true;
}
bool _debugCheckCanBeUsedAsOldLayer(_EngineLayerWrapper? layer, String methodName) {
assert(() {
if (layer == null) {
return true;
}
assert(layer._nativeLayer != null, 'Object disposed');
layer._debugCheckNotUsedAsOldLayer();
assert(_debugCheckUsedOnce(layer, 'oldLayer in $methodName'));
layer._debugWasUsedAsOldLayer = true;
return true;
}());
return true;
}
final List<_EngineLayerWrapper> _layerStack = <_EngineLayerWrapper>[];
// Pushes the `newLayer` onto the `_layerStack` and adds it to the
// `_debugChildren` of the current layer in the stack, if any.
bool _debugPushLayer(_EngineLayerWrapper newLayer) {
assert(() {
if (_layerStack.isNotEmpty) {
final _EngineLayerWrapper currentLayer = _layerStack.last;
currentLayer._debugChildren ??= <_EngineLayerWrapper>[];
currentLayer._debugChildren!.add(newLayer);
}
_layerStack.add(newLayer);
return true;
}());
return true;
}
/// Pushes a transform operation onto the operation stack.
///
/// The objects are transformed by the given matrix before rasterization.
///
/// {@template dart.ui.sceneBuilder.oldLayer}
/// If `oldLayer` is not null the engine will attempt to reuse the resources
/// allocated for the old layer when rendering the new layer. This is purely
/// an optimization. It has no effect on the correctness of rendering.
/// {@endtemplate}
///
/// {@template dart.ui.sceneBuilder.oldLayerVsRetained}
/// Passing a layer to [addRetained] or as `oldLayer` argument to a push
/// method counts as _usage_. A layer can be used no more than once in a scene.
/// For example, it may not be passed simultaneously to two push methods, or
/// to a push method and to `addRetained`.
///
/// When a layer is passed to [addRetained] all descendant layers are also
/// considered as used in this scene. The same single-usage restriction
/// applies to descendants.
///
/// When a layer is passed as an `oldLayer` argument to a push method, it may
/// no longer be used in subsequent frames. If you would like to continue
/// reusing the resources associated with the layer, store the layer object
/// returned by the push method and use that in the next frame instead of the
/// original object.
/// {@endtemplate}
///
/// See [pop] for details about the operation stack.
TransformEngineLayer pushTransform(
Float64List matrix4, {
TransformEngineLayer? oldLayer,
}) {
assert(_matrix4IsValid(matrix4));
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushTransform'));
final EngineLayer engineLayer = EngineLayer._();
_pushTransform(engineLayer, matrix4, oldLayer?._nativeLayer);
final TransformEngineLayer layer = TransformEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushTransform(EngineLayer layer, Float64List matrix4, EngineLayer? oldLayer)
native 'SceneBuilder_pushTransform';
/// Pushes an offset operation onto the operation stack.
///
/// This is equivalent to [pushTransform] with a matrix with only translation.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
OffsetEngineLayer pushOffset(
double dx,
double dy, {
OffsetEngineLayer? oldLayer,
}) {
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushOffset'));
final EngineLayer engineLayer = EngineLayer._();
_pushOffset(engineLayer, dx, dy, oldLayer?._nativeLayer);
final OffsetEngineLayer layer = OffsetEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushOffset(EngineLayer layer, double dx, double dy, EngineLayer? oldLayer)
native 'SceneBuilder_pushOffset';
/// Pushes a rectangular clip operation onto the operation stack.
///
/// Rasterization outside the given rectangle is discarded.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack, and [Clip] for different clip modes.
/// By default, the clip will be anti-aliased (clip = [Clip.antiAlias]).
ClipRectEngineLayer pushClipRect(
Rect rect, {
Clip clipBehavior = Clip.antiAlias,
ClipRectEngineLayer? oldLayer,
}) {
assert(clipBehavior != null);
assert(clipBehavior != Clip.none);
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushClipRect'));
final EngineLayer engineLayer = EngineLayer._();
_pushClipRect(engineLayer, rect.left, rect.right, rect.top, rect.bottom, clipBehavior.index,
oldLayer?._nativeLayer);
final ClipRectEngineLayer layer = ClipRectEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushClipRect(EngineLayer outEngineLayer, double left, double right, double top,
double bottom, int clipBehavior, EngineLayer? oldLayer) native 'SceneBuilder_pushClipRect';
/// Pushes a rounded-rectangular clip operation onto the operation stack.
///
/// Rasterization outside the given rounded rectangle is discarded.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack, and [Clip] for different clip modes.
/// By default, the clip will be anti-aliased (clip = [Clip.antiAlias]).
ClipRRectEngineLayer pushClipRRect(
RRect rrect, {
Clip clipBehavior = Clip.antiAlias,
ClipRRectEngineLayer? oldLayer,
}) {
assert(clipBehavior != null);
assert(clipBehavior != Clip.none);
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushClipRRect'));
final EngineLayer engineLayer = EngineLayer._();
_pushClipRRect(engineLayer, rrect._value32, clipBehavior.index, oldLayer?._nativeLayer);
final ClipRRectEngineLayer layer = ClipRRectEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushClipRRect(EngineLayer layer, Float32List rrect, int clipBehavior, EngineLayer? oldLayer)
native 'SceneBuilder_pushClipRRect';
/// Pushes a path clip operation onto the operation stack.
///
/// Rasterization outside the given path is discarded.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack. See [Clip] for different clip modes.
/// By default, the clip will be anti-aliased (clip = [Clip.antiAlias]).
ClipPathEngineLayer pushClipPath(
Path path, {
Clip clipBehavior = Clip.antiAlias,
ClipPathEngineLayer? oldLayer,
}) {
assert(clipBehavior != null);
assert(clipBehavior != Clip.none);
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushClipPath'));
final EngineLayer engineLayer = EngineLayer._();
_pushClipPath(engineLayer, path, clipBehavior.index, oldLayer?._nativeLayer);
final ClipPathEngineLayer layer = ClipPathEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushClipPath(EngineLayer layer, Path path, int clipBehavior, EngineLayer? oldLayer)
native 'SceneBuilder_pushClipPath';
/// Pushes an opacity operation onto the operation stack.
///
/// The given alpha value is blended into the alpha value of the objects'
/// rasterization. An alpha value of 0 makes the objects entirely invisible.
/// An alpha value of 255 has no effect (i.e., the objects retain the current
/// opacity).
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
OpacityEngineLayer pushOpacity(
int alpha, {
Offset? offset = Offset.zero,
OpacityEngineLayer? oldLayer,
}) {
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushOpacity'));
final EngineLayer engineLayer = EngineLayer._();
_pushOpacity(engineLayer, alpha, offset!.dx, offset.dy, oldLayer?._nativeLayer);
final OpacityEngineLayer layer = OpacityEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushOpacity(EngineLayer layer, int alpha, double dx, double dy, EngineLayer? oldLayer)
native 'SceneBuilder_pushOpacity';
/// Pushes a color filter operation onto the operation stack.
///
/// The given color is applied to the objects' rasterization using the given
/// blend mode.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
ColorFilterEngineLayer pushColorFilter(
ColorFilter filter, {
ColorFilterEngineLayer? oldLayer,
}) {
assert(filter != null);
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushColorFilter'));
final _ColorFilter nativeFilter = filter._toNativeColorFilter()!;
assert(nativeFilter != null);
final EngineLayer engineLayer = EngineLayer._();
_pushColorFilter(engineLayer, nativeFilter, oldLayer?._nativeLayer);
final ColorFilterEngineLayer layer = ColorFilterEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushColorFilter(EngineLayer layer, _ColorFilter filter, EngineLayer? oldLayer)
native 'SceneBuilder_pushColorFilter';
/// Pushes an image filter operation onto the operation stack.
///
/// The given filter is applied to the children's rasterization before compositing them into
/// the scene.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
ImageFilterEngineLayer pushImageFilter(
ImageFilter filter, {
ImageFilterEngineLayer? oldLayer,
}) {
assert(filter != null);
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushImageFilter'));
final _ImageFilter nativeFilter = filter._toNativeImageFilter();
assert(nativeFilter != null);
final EngineLayer engineLayer = EngineLayer._();
_pushImageFilter(engineLayer, nativeFilter, oldLayer?._nativeLayer);
final ImageFilterEngineLayer layer = ImageFilterEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushImageFilter(EngineLayer outEngineLayer, _ImageFilter filter, EngineLayer? oldLayer)
native 'SceneBuilder_pushImageFilter';
/// Pushes a backdrop filter operation onto the operation stack.
///
/// The given filter is applied to the current contents of the scene as far back as
/// the most recent save layer and rendered back to the scene using the indicated
/// [blendMode] prior to rasterizing the child layers.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
BackdropFilterEngineLayer pushBackdropFilter(
ImageFilter filter, {
BlendMode blendMode = BlendMode.srcOver,
BackdropFilterEngineLayer? oldLayer,
}) {
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushBackdropFilter'));
final EngineLayer engineLayer = EngineLayer._();
_pushBackdropFilter(engineLayer, filter._toNativeImageFilter(), blendMode.index, oldLayer?._nativeLayer);
final BackdropFilterEngineLayer layer = BackdropFilterEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushBackdropFilter(EngineLayer outEngineLayer, _ImageFilter filter, int blendMode, EngineLayer? oldLayer)
native 'SceneBuilder_pushBackdropFilter';
/// Pushes a shader mask operation onto the operation stack.
///
/// The given shader is applied to the object's rasterization in the given
/// rectangle using the given blend mode.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack.
ShaderMaskEngineLayer pushShaderMask(
Shader shader,
Rect maskRect,
BlendMode blendMode, {
ShaderMaskEngineLayer? oldLayer,
FilterQuality filterQuality = FilterQuality.low,
}) {
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushShaderMask'));
final EngineLayer engineLayer = EngineLayer._();
_pushShaderMask(
engineLayer,
shader,
maskRect.left,
maskRect.right,
maskRect.top,
maskRect.bottom,
blendMode.index,
filterQuality.index,
oldLayer?._nativeLayer,
);
final ShaderMaskEngineLayer layer = ShaderMaskEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushShaderMask(
EngineLayer engineLayer,
Shader shader,
double maskRectLeft,
double maskRectRight,
double maskRectTop,
double maskRectBottom,
int blendMode,
int filterQualityIndex,
EngineLayer? oldLayer) native 'SceneBuilder_pushShaderMask';
/// Pushes a physical layer operation for an arbitrary shape onto the
/// operation stack.
///
/// By default, the layer's content will not be clipped (clip = [Clip.none]).
/// If clip equals [Clip.hardEdge], [Clip.antiAlias], or [Clip.antiAliasWithSaveLayer],
/// then the content is clipped to the given shape defined by [path].
///
/// If [elevation] is greater than 0.0, then a shadow is drawn around the layer.
/// [shadowColor] defines the color of the shadow if present and [color] defines the
/// color of the layer background.
///
/// {@macro dart.ui.sceneBuilder.oldLayer}
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
///
/// See [pop] for details about the operation stack, and [Clip] for different clip modes.
PhysicalShapeEngineLayer pushPhysicalShape({
required Path path,
required double elevation,
required Color color,
Color? shadowColor,
Clip clipBehavior = Clip.none,
PhysicalShapeEngineLayer? oldLayer,
}) {
assert(_debugCheckCanBeUsedAsOldLayer(oldLayer, 'pushPhysicalShape'));
final EngineLayer engineLayer = EngineLayer._();
_pushPhysicalShape(engineLayer, path, elevation, color.value, shadowColor?.value ?? 0xFF000000,
clipBehavior.index, oldLayer?._nativeLayer);
final PhysicalShapeEngineLayer layer = PhysicalShapeEngineLayer._(engineLayer);
assert(_debugPushLayer(layer));
return layer;
}
void _pushPhysicalShape(
EngineLayer outEngineLayer,
Path path,
double elevation,
int color,
int shadowColor,
int clipBehavior,
EngineLayer? oldLayer) native 'SceneBuilder_pushPhysicalShape';
/// Ends the effect of the most recently pushed operation.
///
/// Internally the scene builder maintains a stack of operations. Each of the
/// operations in the stack applies to each of the objects added to the scene.
/// Calling this function removes the most recently added operation from the
/// stack.
void pop() {
if (_layerStack.isNotEmpty) {
_layerStack.removeLast();
}
_pop();
}
void _pop() native 'SceneBuilder_pop';
/// Add a retained engine layer subtree from previous frames.
///
/// All the engine layers that are in the subtree of the retained layer will
/// be automatically appended to the current engine layer tree.
///
/// Therefore, when implementing a subclass of the [Layer] concept defined in
/// the rendering layer of Flutter's framework, once this is called, there's
/// no need to call [Layer.addToScene] for its children layers.
///
/// {@macro dart.ui.sceneBuilder.oldLayerVsRetained}
void addRetained(EngineLayer retainedLayer) {
assert(retainedLayer is _EngineLayerWrapper);
assert(() {
final _EngineLayerWrapper layer = retainedLayer as _EngineLayerWrapper;
assert(layer._nativeLayer != null);
void recursivelyCheckChildrenUsedOnce(_EngineLayerWrapper parentLayer) {
_debugCheckUsedOnce(parentLayer, 'retained layer');
parentLayer._debugCheckNotUsedAsOldLayer();
final List<_EngineLayerWrapper>? children = parentLayer._debugChildren;
if (children == null || children.isEmpty) {
return;
}
children.forEach(recursivelyCheckChildrenUsedOnce);
}
recursivelyCheckChildrenUsedOnce(layer);
return true;
}());
final _EngineLayerWrapper wrapper = retainedLayer as _EngineLayerWrapper;
_addRetained(wrapper._nativeLayer!);
}
void _addRetained(EngineLayer retainedLayer) native 'SceneBuilder_addRetained';
/// Adds an object to the scene that displays performance statistics.
///
/// Useful during development to assess the performance of the application.
/// The enabledOptions controls which statistics are displayed. The bounds
/// controls where the statistics are displayed.
///
/// enabledOptions is a bit field with the following bits defined:
/// - 0x01: displayRasterizerStatistics - show raster thread frame time
/// - 0x02: visualizeRasterizerStatistics - graph raster thread frame times
/// - 0x04: displayEngineStatistics - show UI thread frame time
/// - 0x08: visualizeEngineStatistics - graph UI thread frame times
/// Set enabledOptions to 0x0F to enable all the currently defined features.
///
/// The "UI thread" is the thread that includes all the execution of the main
/// Dart isolate (the isolate that can call [FlutterView.render]). The UI
/// thread frame time is the total time spent executing the
/// [PlatformDispatcher.onBeginFrame] callback. The "raster thread" is the
/// thread (running on the CPU) that subsequently processes the [Scene]
/// provided by the Dart code to turn it into GPU commands and send it to the
/// GPU.
///
/// See also the [PerformanceOverlayOption] enum in the rendering library.
/// for more details.
// Values above must match constants in //engine/src/sky/compositor/performance_overlay_layer.h
void addPerformanceOverlay(int enabledOptions, Rect bounds) {
_addPerformanceOverlay(enabledOptions, bounds.left, bounds.right, bounds.top, bounds.bottom);
}
void _addPerformanceOverlay(
int enabledOptions,
double left,
double right,
double top,
double bottom,
) native 'SceneBuilder_addPerformanceOverlay';
/// Adds a [Picture] to the scene.
///
/// The picture is rasterized at the given offset.
void addPicture(
Offset offset,
Picture picture, {
bool isComplexHint = false,
bool willChangeHint = false,
}) {
final int hints = (isComplexHint ? 1 : 0) | (willChangeHint ? 2 : 0);
_addPicture(offset.dx, offset.dy, picture, hints);
}
void _addPicture(double dx, double dy, Picture picture, int hints)
native 'SceneBuilder_addPicture';
/// Adds a backend texture to the scene.
///
/// The texture is scaled to the given size and rasterized at the given offset.
///
/// If `freeze` is true the texture that is added to the scene will not
/// be updated with new frames. `freeze` is used when resizing an embedded
/// Android view: When resizing an Android view there is a short period during
/// which the framework cannot tell if the newest texture frame has the
/// previous or new size, to workaround this the framework "freezes" the
/// texture just before resizing the Android view and un-freezes it when it is
/// certain that a frame with the new size is ready.
void addTexture(
int textureId, {
Offset offset = Offset.zero,
double width = 0.0,
double height = 0.0,
bool freeze = false,
FilterQuality filterQuality = FilterQuality.low,
}) {
assert(offset != null, 'Offset argument was null');
_addTexture(offset.dx, offset.dy, width, height, textureId, freeze, filterQuality.index);
}
void _addTexture(double dx, double dy, double width, double height, int textureId, bool freeze,
int filterQuality) native 'SceneBuilder_addTexture';
/// Adds a platform view (e.g an iOS UIView) to the scene.
///
/// On iOS this layer splits the current output surface into two surfaces, one for the scene nodes
/// preceding the platform view, and one for the scene nodes following the platform view.
///
/// ## Performance impact
///
/// Adding an additional surface doubles the amount of graphics memory directly used by Flutter
/// for output buffers. Quartz might allocated extra buffers for compositing the Flutter surfaces
/// and the platform view.
///
/// With a platform view in the scene, Quartz has to composite the two Flutter surfaces and the
/// embedded UIView. In addition to that, on iOS versions greater than 9, the Flutter frames are
/// synchronized with the UIView frames adding additional performance overhead.
///
/// The `offset` argument is not used for iOS and Android.
void addPlatformView(
int viewId, {
Offset offset = Offset.zero,
double width = 0.0,
double height = 0.0,
}) {
assert(offset != null, 'Offset argument was null');
_addPlatformView(offset.dx, offset.dy, width, height, viewId);
}
void _addPlatformView(double dx, double dy, double width, double height, int viewId)
native 'SceneBuilder_addPlatformView';
/// (Fuchsia-only) Adds a scene rendered by another application to the scene
/// for this application.
void addChildScene({
Offset offset = Offset.zero,
double width = 0.0,
double height = 0.0,
required SceneHost sceneHost,
bool hitTestable = true,
}) {
_addChildScene(offset.dx, offset.dy, width, height, sceneHost, hitTestable);
}
void _addChildScene(double dx, double dy, double width, double height, SceneHost sceneHost,
bool hitTestable) native 'SceneBuilder_addChildScene';
/// Sets a threshold after which additional debugging information should be recorded.
///
/// Currently this interface is difficult to use by end-developers. If you're
/// interested in using this feature, please contact [flutter-dev](https://groups.google.com/forum/#!forum/flutter-dev).
/// We'll hopefully be able to figure out how to make this feature more useful
/// to you.
void setRasterizerTracingThreshold(int frameInterval)
native 'SceneBuilder_setRasterizerTracingThreshold';
/// Sets whether the raster cache should checkerboard cached entries. This is
/// only useful for debugging purposes.
///
/// The compositor can sometimes decide to cache certain portions of the
/// widget hierarchy. Such portions typically don't change often from frame to
/// frame and are expensive to render. This can speed up overall rendering. However,
/// there is certain upfront cost to constructing these cache entries. And, if
/// the cache entries are not used very often, this cost may not be worth the
/// speedup in rendering of subsequent frames. If the developer wants to be certain
/// that populating the raster cache is not causing stutters, this option can be
/// set. Depending on the observations made, hints can be provided to the compositor
/// that aid it in making better decisions about caching.
///
/// Currently this interface is difficult to use by end-developers. If you're
/// interested in using this feature, please contact [flutter-dev](https://groups.google.com/forum/#!forum/flutter-dev).
void setCheckerboardRasterCacheImages(bool checkerboard)
native 'SceneBuilder_setCheckerboardRasterCacheImages';
/// Sets whether the compositor should checkerboard layers that are rendered
/// to offscreen bitmaps.
///
/// This is only useful for debugging purposes.
void setCheckerboardOffscreenLayers(bool checkerboard)
native 'SceneBuilder_setCheckerboardOffscreenLayers';
/// Finishes building the scene.
///
/// Returns a [Scene] containing the objects that have been added to
/// this scene builder. The [Scene] can then be displayed on the
/// screen with [FlutterView.render].
///
/// After calling this function, the scene builder object is invalid and
/// cannot be used further.
Scene build() {
final Scene scene = Scene._();
_build(scene);
return scene;
}
void _build(Scene outScene) native 'SceneBuilder_build';
}
/// (Fuchsia-only) Hosts content provided by another application.
class SceneHost extends NativeFieldWrapperClass2 {
/// Creates a host for a child scene's content.
///
/// The ViewHolder token is bound to a ViewHolder scene graph node which acts
/// as a container for the child's content. The creator of the SceneHost is
/// responsible for sending the corresponding ViewToken to the child.
///
/// The ViewHolder token is a dart:zircon Handle, but that type isn't
/// available here. This is called by ChildViewConnection in
/// //topaz/public/dart/fuchsia_scenic_flutter/.
///
/// The SceneHost takes ownership of the provided ViewHolder token.
SceneHost(
dynamic viewHolderToken,
void Function()? viewConnectedCallback,
void Function()? viewDisconnectedCallback,
void Function(bool)? viewStateChangedCallback,
) {
_constructor(
viewHolderToken, viewConnectedCallback, viewDisconnectedCallback, viewStateChangedCallback);
}
void _constructor(
dynamic viewHolderToken,
void Function()? viewConnectedCallback,
void Function()? viewDisconnectedCallback,
void Function(bool)? viewStateChangedCallbac,
) native 'SceneHost_constructor';
/// Releases the resources associated with the SceneHost.
///
/// After calling this function, the SceneHost cannot be used further.
void dispose() native 'SceneHost_dispose';
/// Set properties on the linked scene. These properties include its bounds,
/// as well as whether it can be the target of focus events or not.
void setProperties(
double width,
double height,
double insetTop,
double insetRight,
double insetBottom,
double insetLeft,
bool focusable,
) native 'SceneHost_setProperties';
}