packages/camera/camera_avfoundation/example/lib/camera_controller.dart - mirrors/plugins - Git at Google

 // 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.

 import 'dart:async';
 import 'dart:collection';

 import 'package:camera_platform_interface/camera_platform_interface.dart';
 import 'package:flutter/foundation.dart';
 import 'package:flutter/material.dart';
 import 'package:flutter/services.dart';

 /// The state of a [CameraController].
 class CameraValue {
   /// Creates a new camera controller state.
   const CameraValue({
     required this.isInitialized,
     this.previewSize,
     required this.isRecordingVideo,
     required this.isTakingPicture,
     required this.isStreamingImages,
     required this.isRecordingPaused,
     required this.flashMode,
     required this.exposureMode,
     required this.focusMode,
     required this.deviceOrientation,
     this.lockedCaptureOrientation,
     this.recordingOrientation,
     this.isPreviewPaused = false,
     this.previewPauseOrientation,
   });

   /// Creates a new camera controller state for an uninitialized controller.
   const CameraValue.uninitialized()
       : this(
           isInitialized: false,
           isRecordingVideo: false,
           isTakingPicture: false,
           isStreamingImages: false,
           isRecordingPaused: false,
           flashMode: FlashMode.auto,
           exposureMode: ExposureMode.auto,
           focusMode: FocusMode.auto,
           deviceOrientation: DeviceOrientation.portraitUp,
           isPreviewPaused: false,
         );

   /// True after [CameraController.initialize] has completed successfully.
   final bool isInitialized;

   /// True when a picture capture request has been sent but as not yet returned.
   final bool isTakingPicture;

   /// True when the camera is recording (not the same as previewing).
   final bool isRecordingVideo;

   /// True when images from the camera are being streamed.
   final bool isStreamingImages;

   /// True when video recording is paused.
   final bool isRecordingPaused;

   /// True when the preview widget has been paused manually.
   final bool isPreviewPaused;

   /// Set to the orientation the preview was paused in, if it is currently paused.
   final DeviceOrientation? previewPauseOrientation;

   /// The size of the preview in pixels.
   ///
   /// Is `null` until [isInitialized] is `true`.
   final Size? previewSize;

   /// The flash mode the camera is currently set to.
   final FlashMode flashMode;

   /// The exposure mode the camera is currently set to.
   final ExposureMode exposureMode;

   /// The focus mode the camera is currently set to.
   final FocusMode focusMode;

   /// The current device UI orientation.
   final DeviceOrientation deviceOrientation;

   /// The currently locked capture orientation.
   final DeviceOrientation? lockedCaptureOrientation;

   /// Whether the capture orientation is currently locked.
   bool get isCaptureOrientationLocked => lockedCaptureOrientation != null;

   /// The orientation of the currently running video recording.
   final DeviceOrientation? recordingOrientation;

   /// Creates a modified copy of the object.
   ///
   /// Explicitly specified fields get the specified value, all other fields get
   /// the same value of the current object.
   CameraValue copyWith({
     bool? isInitialized,
     bool? isRecordingVideo,
     bool? isTakingPicture,
     bool? isStreamingImages,
     Size? previewSize,
     bool? isRecordingPaused,
     FlashMode? flashMode,
     ExposureMode? exposureMode,
     FocusMode? focusMode,
     bool? exposurePointSupported,
     bool? focusPointSupported,
     DeviceOrientation? deviceOrientation,
     Optional<DeviceOrientation>? lockedCaptureOrientation,
     Optional<DeviceOrientation>? recordingOrientation,
     bool? isPreviewPaused,
     Optional<DeviceOrientation>? previewPauseOrientation,
   }) {
     return CameraValue(
       isInitialized: isInitialized ?? this.isInitialized,
       previewSize: previewSize ?? this.previewSize,
       isRecordingVideo: isRecordingVideo ?? this.isRecordingVideo,
       isTakingPicture: isTakingPicture ?? this.isTakingPicture,
       isStreamingImages: isStreamingImages ?? this.isStreamingImages,
       isRecordingPaused: isRecordingPaused ?? this.isRecordingPaused,
       flashMode: flashMode ?? this.flashMode,
       exposureMode: exposureMode ?? this.exposureMode,
       focusMode: focusMode ?? this.focusMode,
       deviceOrientation: deviceOrientation ?? this.deviceOrientation,
       lockedCaptureOrientation: lockedCaptureOrientation == null
           ? this.lockedCaptureOrientation
           : lockedCaptureOrientation.orNull,
       recordingOrientation: recordingOrientation == null
           ? this.recordingOrientation
           : recordingOrientation.orNull,
       isPreviewPaused: isPreviewPaused ?? this.isPreviewPaused,
       previewPauseOrientation: previewPauseOrientation == null
           ? this.previewPauseOrientation
           : previewPauseOrientation.orNull,
     );
   }

   @override
   String toString() {
     return '${objectRuntimeType(this, 'CameraValue')}('
         'isRecordingVideo: $isRecordingVideo, '
         'isInitialized: $isInitialized, '
         'previewSize: $previewSize, '
         'isStreamingImages: $isStreamingImages, '
         'flashMode: $flashMode, '
         'exposureMode: $exposureMode, '
         'focusMode: $focusMode, '
         'deviceOrientation: $deviceOrientation, '
         'lockedCaptureOrientation: $lockedCaptureOrientation, '
         'recordingOrientation: $recordingOrientation, '
         'isPreviewPaused: $isPreviewPaused, '
         'previewPausedOrientation: $previewPauseOrientation)';
   }
 }

 /// Controls a device camera.
 ///
 /// This is a stripped-down version of the app-facing controller to serve as a
 /// utility for the example and integration tests. It wraps only the calls that
 /// have state associated with them, to consolidate tracking of camera state
 /// outside of the overall example code.
 class CameraController extends ValueNotifier<CameraValue> {
   /// Creates a new camera controller in an uninitialized state.
   CameraController(
     this.description,
     this.resolutionPreset, {
     this.enableAudio = true,
     this.imageFormatGroup,
   }) : super(const CameraValue.uninitialized());

   /// The properties of the camera device controlled by this controller.
   final CameraDescription description;

   /// The resolution this controller is targeting.
   ///
   /// This resolution preset is not guaranteed to be available on the device,
   /// if unavailable a lower resolution will be used.
   ///
   /// See also: [ResolutionPreset].
   final ResolutionPreset resolutionPreset;

   /// Whether to include audio when recording a video.
   final bool enableAudio;

   /// The [ImageFormatGroup] describes the output of the raw image format.
   ///
   /// When null the imageFormat will fallback to the platforms default.
   final ImageFormatGroup? imageFormatGroup;

   late int _cameraId;

   bool _isDisposed = false;
   StreamSubscription<CameraImageData>? _imageStreamSubscription;
   FutureOr<bool>? _initCalled;
   StreamSubscription<DeviceOrientationChangedEvent>?
       _deviceOrientationSubscription;

   /// The camera identifier with which the controller is associated.
   int get cameraId => _cameraId;

   /// Initializes the camera on the device.
   Future<void> initialize() async {
     final Completer<CameraInitializedEvent> initializeCompleter =
         Completer<CameraInitializedEvent>();

     _deviceOrientationSubscription = CameraPlatform.instance
         .onDeviceOrientationChanged()
         .listen((DeviceOrientationChangedEvent event) {
       value = value.copyWith(
         deviceOrientation: event.orientation,
       );
     });

     _cameraId = await CameraPlatform.instance.createCamera(
       description,
       resolutionPreset,
       enableAudio: enableAudio,
     );

     CameraPlatform.instance
         .onCameraInitialized(_cameraId)
         .first
         .then((CameraInitializedEvent event) {
       initializeCompleter.complete(event);
     });

     await CameraPlatform.instance.initializeCamera(
       _cameraId,
       imageFormatGroup: imageFormatGroup ?? ImageFormatGroup.unknown,
     );

     value = value.copyWith(
       isInitialized: true,
       previewSize: await initializeCompleter.future
           .then((CameraInitializedEvent event) => Size(
                 event.previewWidth,
                 event.previewHeight,
               )),
       exposureMode: await initializeCompleter.future
           .then((CameraInitializedEvent event) => event.exposureMode),
       focusMode: await initializeCompleter.future
           .then((CameraInitializedEvent event) => event.focusMode),
       exposurePointSupported: await initializeCompleter.future
           .then((CameraInitializedEvent event) => event.exposurePointSupported),
       focusPointSupported: await initializeCompleter.future
           .then((CameraInitializedEvent event) => event.focusPointSupported),
     );

     _initCalled = true;
   }

   /// Prepare the capture session for video recording.
   Future<void> prepareForVideoRecording() async {
     await CameraPlatform.instance.prepareForVideoRecording();
   }

   /// Pauses the current camera preview
   Future<void> pausePreview() async {
     await CameraPlatform.instance.pausePreview(_cameraId);
     value = value.copyWith(
         isPreviewPaused: true,
         previewPauseOrientation: Optional<DeviceOrientation>.of(
             value.lockedCaptureOrientation ?? value.deviceOrientation));
   }

   /// Resumes the current camera preview
   Future<void> resumePreview() async {
     await CameraPlatform.instance.resumePreview(_cameraId);
     value = value.copyWith(
         isPreviewPaused: false,
         previewPauseOrientation: const Optional<DeviceOrientation>.absent());
   }

   /// Captures an image and returns the file where it was saved.
   ///
   /// Throws a [CameraException] if the capture fails.
   Future<XFile> takePicture() async {
     value = value.copyWith(isTakingPicture: true);
     final XFile file = await CameraPlatform.instance.takePicture(_cameraId);
     value = value.copyWith(isTakingPicture: false);
     return file;
   }

   /// Start streaming images from platform camera.
   Future<void> startImageStream(
       Function(CameraImageData image) onAvailable) async {
     _imageStreamSubscription = CameraPlatform.instance
         .onStreamedFrameAvailable(_cameraId)
         .listen((CameraImageData imageData) {
       onAvailable(imageData);
     });
     value = value.copyWith(isStreamingImages: true);
   }

   /// Stop streaming images from platform camera.
   Future<void> stopImageStream() async {
     value = value.copyWith(isStreamingImages: false);
     await _imageStreamSubscription?.cancel();
     _imageStreamSubscription = null;
   }

   /// Start a video recording.
   ///
   /// The video is returned as a [XFile] after calling [stopVideoRecording].
   /// Throws a [CameraException] if the capture fails.
   Future<void> startVideoRecording(
       {Function(CameraImageData image)? streamCallback}) async {
     await CameraPlatform.instance.startVideoCapturing(
         VideoCaptureOptions(_cameraId, streamCallback: streamCallback));
     value = value.copyWith(
         isRecordingVideo: true,
         isRecordingPaused: false,
         isStreamingImages: streamCallback != null,
         recordingOrientation: Optional<DeviceOrientation>.of(
             value.lockedCaptureOrientation ?? value.deviceOrientation));
   }

   /// Stops the video recording and returns the file where it was saved.
   ///
   /// Throws a [CameraException] if the capture failed.
   Future<XFile> stopVideoRecording() async {
     if (value.isStreamingImages) {
       await stopImageStream();
     }

     final XFile file =
         await CameraPlatform.instance.stopVideoRecording(_cameraId);
     value = value.copyWith(
       isRecordingVideo: false,
       recordingOrientation: const Optional<DeviceOrientation>.absent(),
     );
     return file;
   }

   /// Pause video recording.
   ///
   /// This feature is only available on iOS and Android sdk 24+.
   Future<void> pauseVideoRecording() async {
     await CameraPlatform.instance.pauseVideoRecording(_cameraId);
     value = value.copyWith(isRecordingPaused: true);
   }

   /// Resume video recording after pausing.
   ///
   /// This feature is only available on iOS and Android sdk 24+.
   Future<void> resumeVideoRecording() async {
     await CameraPlatform.instance.resumeVideoRecording(_cameraId);
     value = value.copyWith(isRecordingPaused: false);
   }

   /// Returns a widget showing a live camera preview.
   Widget buildPreview() {
     return CameraPlatform.instance.buildPreview(_cameraId);
   }

   /// Sets the flash mode for taking pictures.
   Future<void> setFlashMode(FlashMode mode) async {
     await CameraPlatform.instance.setFlashMode(_cameraId, mode);
     value = value.copyWith(flashMode: mode);
   }

   /// Sets the exposure mode for taking pictures.
   Future<void> setExposureMode(ExposureMode mode) async {
     await CameraPlatform.instance.setExposureMode(_cameraId, mode);
     value = value.copyWith(exposureMode: mode);
   }

   /// Sets the exposure offset for the selected camera.
   Future<double> setExposureOffset(double offset) async {
     // Check if offset is in range
     final List<double> range = await Future.wait(<Future<double>>[
       CameraPlatform.instance.getMinExposureOffset(_cameraId),
       CameraPlatform.instance.getMaxExposureOffset(_cameraId)
     ]);

     // Round to the closest step if needed
     final double stepSize =
         await CameraPlatform.instance.getExposureOffsetStepSize(_cameraId);
     if (stepSize > 0) {
       final double inv = 1.0 / stepSize;
       double roundedOffset = (offset * inv).roundToDouble() / inv;
       if (roundedOffset > range[1]) {
         roundedOffset = (offset * inv).floorToDouble() / inv;
       } else if (roundedOffset < range[0]) {
         roundedOffset = (offset * inv).ceilToDouble() / inv;
       }
       offset = roundedOffset;
     }

     return CameraPlatform.instance.setExposureOffset(_cameraId, offset);
   }

   /// Locks the capture orientation.
   ///
   /// If [orientation] is omitted, the current device orientation is used.
   Future<void> lockCaptureOrientation() async {
     await CameraPlatform.instance
         .lockCaptureOrientation(_cameraId, value.deviceOrientation);
     value = value.copyWith(
         lockedCaptureOrientation:
             Optional<DeviceOrientation>.of(value.deviceOrientation));
   }

   /// Unlocks the capture orientation.
   Future<void> unlockCaptureOrientation() async {
     await CameraPlatform.instance.unlockCaptureOrientation(_cameraId);
     value = value.copyWith(
         lockedCaptureOrientation: const Optional<DeviceOrientation>.absent());
   }

   /// Sets the focus mode for taking pictures.
   Future<void> setFocusMode(FocusMode mode) async {
     await CameraPlatform.instance.setFocusMode(_cameraId, mode);
     value = value.copyWith(focusMode: mode);
   }

   /// Releases the resources of this camera.
   @override
   Future<void> dispose() async {
     if (_isDisposed) {
       return;
     }
     _deviceOrientationSubscription?.cancel();
     _isDisposed = true;
     super.dispose();
     if (_initCalled != null) {
       await _initCalled;
       await CameraPlatform.instance.dispose(_cameraId);
     }
   }

   @override
   void removeListener(VoidCallback listener) {
     // Prevent ValueListenableBuilder in CameraPreview widget from causing an
     // exception to be thrown by attempting to remove its own listener after
     // the controller has already been disposed.
     if (!_isDisposed) {
       super.removeListener(listener);
     }
   }
 }

 /// A value that might be absent.
 ///
 /// Used to represent [DeviceOrientation]s that are optional but also able
 /// to be cleared.
 @immutable
 class Optional<T> extends IterableBase<T> {
   /// Constructs an empty Optional.
   const Optional.absent() : _value = null;

   /// Constructs an Optional of the given [value].
   ///
   /// Throws [ArgumentError] if [value] is null.
   Optional.of(T value) : _value = value {
     // TODO(cbracken): Delete and make this ctor const once mixed-mode
     // execution is no longer around.
     ArgumentError.checkNotNull(value);
   }

   /// Constructs an Optional of the given [value].
   ///
   /// If [value] is null, returns [absent()].
   const Optional.fromNullable(T? value) : _value = value;

   final T? _value;

   /// True when this optional contains a value.
   bool get isPresent => _value != null;

   /// True when this optional contains no value.
   bool get isNotPresent => _value == null;

   /// Gets the Optional value.
   ///
   /// Throws [StateError] if [value] is null.
   T get value {
     if (_value == null) {
       throw StateError('value called on absent Optional.');
     }
     return _value!;
   }

   /// Executes a function if the Optional value is present.
   void ifPresent(void Function(T value) ifPresent) {
     if (isPresent) {
       ifPresent(_value as T);
     }
   }

   /// Execution a function if the Optional value is absent.
   void ifAbsent(void Function() ifAbsent) {
     if (!isPresent) {
       ifAbsent();
     }
   }

   /// Gets the Optional value with a default.
   ///
   /// The default is returned if the Optional is [absent()].
   ///
   /// Throws [ArgumentError] if [defaultValue] is null.
   T or(T defaultValue) {
     return _value ?? defaultValue;
   }

   /// Gets the Optional value, or `null` if there is none.
   T? get orNull => _value;

   /// Transforms the Optional value.
   ///
   /// If the Optional is [absent()], returns [absent()] without applying the transformer.
   ///
   /// The transformer must not return `null`. If it does, an [ArgumentError] is thrown.
   Optional<S> transform<S>(S Function(T value) transformer) {
     return _value == null
         ? Optional<S>.absent()
         : Optional<S>.of(transformer(_value as T));
   }

   /// Transforms the Optional value.
   ///
   /// If the Optional is [absent()], returns [absent()] without applying the transformer.
   ///
   /// Returns [absent()] if the transformer returns `null`.
   Optional<S> transformNullable<S>(S? Function(T value) transformer) {
     return _value == null
         ? Optional<S>.absent()
         : Optional<S>.fromNullable(transformer(_value as T));
   }

   @override
   Iterator<T> get iterator =>
       isPresent ? <T>[_value as T].iterator : Iterable<T>.empty().iterator;

   /// Delegates to the underlying [value] hashCode.
   @override
   int get hashCode => _value.hashCode;

   /// Delegates to the underlying [value] operator==.
   @override
   bool operator ==(Object o) => o is Optional<T> && o._value == _value;

   @override
   String toString() {
     return _value == null
         ? 'Optional { absent }'
         : 'Optional { value: $_value }';
   }
 }
	// 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.

	import 'dart:async';
	import 'dart:collection';

	import 'package:camera_platform_interface/camera_platform_interface.dart';
	import 'package:flutter/foundation.dart';
	import 'package:flutter/material.dart';
	import 'package:flutter/services.dart';

	/// The state of a [CameraController].
	class CameraValue {
	/// Creates a new camera controller state.
	const CameraValue({
	required this.isInitialized,
	this.previewSize,
	required this.isRecordingVideo,
	required this.isTakingPicture,
	required this.isStreamingImages,
	required this.isRecordingPaused,
	required this.flashMode,
	required this.exposureMode,
	required this.focusMode,
	required this.deviceOrientation,
	this.lockedCaptureOrientation,
	this.recordingOrientation,
	this.isPreviewPaused = false,
	this.previewPauseOrientation,
	});

	/// Creates a new camera controller state for an uninitialized controller.
	const CameraValue.uninitialized()
	: this(
	isInitialized: false,
	isRecordingVideo: false,
	isTakingPicture: false,
	isStreamingImages: false,
	isRecordingPaused: false,
	flashMode: FlashMode.auto,
	exposureMode: ExposureMode.auto,
	focusMode: FocusMode.auto,
	deviceOrientation: DeviceOrientation.portraitUp,
	isPreviewPaused: false,
	);

	/// True after [CameraController.initialize] has completed successfully.
	final bool isInitialized;

	/// True when a picture capture request has been sent but as not yet returned.
	final bool isTakingPicture;

	/// True when the camera is recording (not the same as previewing).
	final bool isRecordingVideo;

	/// True when images from the camera are being streamed.
	final bool isStreamingImages;

	/// True when video recording is paused.
	final bool isRecordingPaused;

	/// True when the preview widget has been paused manually.
	final bool isPreviewPaused;

	/// Set to the orientation the preview was paused in, if it is currently paused.
	final DeviceOrientation? previewPauseOrientation;

	/// The size of the preview in pixels.
	///
	/// Is `null` until [isInitialized] is `true`.
	final Size? previewSize;

	/// The flash mode the camera is currently set to.
	final FlashMode flashMode;

	/// The exposure mode the camera is currently set to.
	final ExposureMode exposureMode;

	/// The focus mode the camera is currently set to.
	final FocusMode focusMode;

	/// The current device UI orientation.
	final DeviceOrientation deviceOrientation;

	/// The currently locked capture orientation.
	final DeviceOrientation? lockedCaptureOrientation;

	/// Whether the capture orientation is currently locked.
	bool get isCaptureOrientationLocked => lockedCaptureOrientation != null;

	/// The orientation of the currently running video recording.
	final DeviceOrientation? recordingOrientation;

	/// Creates a modified copy of the object.
	///
	/// Explicitly specified fields get the specified value, all other fields get
	/// the same value of the current object.
	CameraValue copyWith({
	bool? isInitialized,
	bool? isRecordingVideo,
	bool? isTakingPicture,
	bool? isStreamingImages,
	Size? previewSize,
	bool? isRecordingPaused,
	FlashMode? flashMode,
	ExposureMode? exposureMode,
	FocusMode? focusMode,
	bool? exposurePointSupported,
	bool? focusPointSupported,
	DeviceOrientation? deviceOrientation,
	Optional<DeviceOrientation>? lockedCaptureOrientation,
	Optional<DeviceOrientation>? recordingOrientation,
	bool? isPreviewPaused,
	Optional<DeviceOrientation>? previewPauseOrientation,
	}) {
	return CameraValue(
	isInitialized: isInitialized ?? this.isInitialized,
	previewSize: previewSize ?? this.previewSize,
	isRecordingVideo: isRecordingVideo ?? this.isRecordingVideo,
	isTakingPicture: isTakingPicture ?? this.isTakingPicture,
	isStreamingImages: isStreamingImages ?? this.isStreamingImages,
	isRecordingPaused: isRecordingPaused ?? this.isRecordingPaused,
	flashMode: flashMode ?? this.flashMode,
	exposureMode: exposureMode ?? this.exposureMode,
	focusMode: focusMode ?? this.focusMode,
	deviceOrientation: deviceOrientation ?? this.deviceOrientation,
	lockedCaptureOrientation: lockedCaptureOrientation == null
	? this.lockedCaptureOrientation
	: lockedCaptureOrientation.orNull,
	recordingOrientation: recordingOrientation == null
	? this.recordingOrientation
	: recordingOrientation.orNull,
	isPreviewPaused: isPreviewPaused ?? this.isPreviewPaused,
	previewPauseOrientation: previewPauseOrientation == null
	? this.previewPauseOrientation
	: previewPauseOrientation.orNull,
	);
	}

	@override
	String toString() {
	return '${objectRuntimeType(this, 'CameraValue')}('
	'isRecordingVideo: $isRecordingVideo, '
	'isInitialized: $isInitialized, '
	'previewSize: $previewSize, '
	'isStreamingImages: $isStreamingImages, '
	'flashMode: $flashMode, '
	'exposureMode: $exposureMode, '
	'focusMode: $focusMode, '
	'deviceOrientation: $deviceOrientation, '
	'lockedCaptureOrientation: $lockedCaptureOrientation, '
	'recordingOrientation: $recordingOrientation, '
	'isPreviewPaused: $isPreviewPaused, '
	'previewPausedOrientation: $previewPauseOrientation)';
	}
	}

	/// Controls a device camera.
	///
	/// This is a stripped-down version of the app-facing controller to serve as a
	/// utility for the example and integration tests. It wraps only the calls that
	/// have state associated with them, to consolidate tracking of camera state
	/// outside of the overall example code.
	class CameraController extends ValueNotifier<CameraValue> {
	/// Creates a new camera controller in an uninitialized state.
	CameraController(
	this.description,
	this.resolutionPreset, {
	this.enableAudio = true,
	this.imageFormatGroup,
	}) : super(const CameraValue.uninitialized());

	/// The properties of the camera device controlled by this controller.
	final CameraDescription description;

	/// The resolution this controller is targeting.
	///
	/// This resolution preset is not guaranteed to be available on the device,
	/// if unavailable a lower resolution will be used.
	///
	/// See also: [ResolutionPreset].
	final ResolutionPreset resolutionPreset;

	/// Whether to include audio when recording a video.
	final bool enableAudio;

	/// The [ImageFormatGroup] describes the output of the raw image format.
	///
	/// When null the imageFormat will fallback to the platforms default.
	final ImageFormatGroup? imageFormatGroup;

	late int _cameraId;

	bool _isDisposed = false;
	StreamSubscription<CameraImageData>? _imageStreamSubscription;
	FutureOr<bool>? _initCalled;
	StreamSubscription<DeviceOrientationChangedEvent>?
	_deviceOrientationSubscription;

	/// The camera identifier with which the controller is associated.
	int get cameraId => _cameraId;

	/// Initializes the camera on the device.
	Future<void> initialize() async {
	final Completer<CameraInitializedEvent> initializeCompleter =
	Completer<CameraInitializedEvent>();

	_deviceOrientationSubscription = CameraPlatform.instance
	.onDeviceOrientationChanged()
	.listen((DeviceOrientationChangedEvent event) {
	value = value.copyWith(
	deviceOrientation: event.orientation,
	);
	});

	_cameraId = await CameraPlatform.instance.createCamera(
	description,
	resolutionPreset,
	enableAudio: enableAudio,
	);

	CameraPlatform.instance
	.onCameraInitialized(_cameraId)
	.first
	.then((CameraInitializedEvent event) {
	initializeCompleter.complete(event);
	});

	await CameraPlatform.instance.initializeCamera(
	_cameraId,
	imageFormatGroup: imageFormatGroup ?? ImageFormatGroup.unknown,
	);

	value = value.copyWith(
	isInitialized: true,
	previewSize: await initializeCompleter.future
	.then((CameraInitializedEvent event) => Size(
	event.previewWidth,
	event.previewHeight,
	)),
	exposureMode: await initializeCompleter.future
	.then((CameraInitializedEvent event) => event.exposureMode),
	focusMode: await initializeCompleter.future
	.then((CameraInitializedEvent event) => event.focusMode),
	exposurePointSupported: await initializeCompleter.future
	.then((CameraInitializedEvent event) => event.exposurePointSupported),
	focusPointSupported: await initializeCompleter.future
	.then((CameraInitializedEvent event) => event.focusPointSupported),
	);

	_initCalled = true;
	}

	/// Prepare the capture session for video recording.
	Future<void> prepareForVideoRecording() async {
	await CameraPlatform.instance.prepareForVideoRecording();
	}

	/// Pauses the current camera preview
	Future<void> pausePreview() async {
	await CameraPlatform.instance.pausePreview(_cameraId);
	value = value.copyWith(
	isPreviewPaused: true,
	previewPauseOrientation: Optional<DeviceOrientation>.of(
	value.lockedCaptureOrientation ?? value.deviceOrientation));
	}

	/// Resumes the current camera preview
	Future<void> resumePreview() async {
	await CameraPlatform.instance.resumePreview(_cameraId);
	value = value.copyWith(
	isPreviewPaused: false,
	previewPauseOrientation: const Optional<DeviceOrientation>.absent());
	}

	/// Captures an image and returns the file where it was saved.
	///
	/// Throws a [CameraException] if the capture fails.
	Future<XFile> takePicture() async {
	value = value.copyWith(isTakingPicture: true);
	final XFile file = await CameraPlatform.instance.takePicture(_cameraId);
	value = value.copyWith(isTakingPicture: false);
	return file;
	}

	/// Start streaming images from platform camera.
	Future<void> startImageStream(
	Function(CameraImageData image) onAvailable) async {
	_imageStreamSubscription = CameraPlatform.instance
	.onStreamedFrameAvailable(_cameraId)
	.listen((CameraImageData imageData) {
	onAvailable(imageData);
	});
	value = value.copyWith(isStreamingImages: true);
	}

	/// Stop streaming images from platform camera.
	Future<void> stopImageStream() async {
	value = value.copyWith(isStreamingImages: false);
	await _imageStreamSubscription?.cancel();
	_imageStreamSubscription = null;
	}

	/// Start a video recording.
	///
	/// The video is returned as a [XFile] after calling [stopVideoRecording].
	/// Throws a [CameraException] if the capture fails.
	Future<void> startVideoRecording(
	{Function(CameraImageData image)? streamCallback}) async {
	await CameraPlatform.instance.startVideoCapturing(
	VideoCaptureOptions(_cameraId, streamCallback: streamCallback));
	value = value.copyWith(
	isRecordingVideo: true,
	isRecordingPaused: false,
	isStreamingImages: streamCallback != null,
	recordingOrientation: Optional<DeviceOrientation>.of(
	value.lockedCaptureOrientation ?? value.deviceOrientation));
	}

	/// Stops the video recording and returns the file where it was saved.
	///
	/// Throws a [CameraException] if the capture failed.
	Future<XFile> stopVideoRecording() async {
	if (value.isStreamingImages) {
	await stopImageStream();
	}

	final XFile file =
	await CameraPlatform.instance.stopVideoRecording(_cameraId);
	value = value.copyWith(
	isRecordingVideo: false,
	recordingOrientation: const Optional<DeviceOrientation>.absent(),
	);
	return file;
	}

	/// Pause video recording.
	///
	/// This feature is only available on iOS and Android sdk 24+.
	Future<void> pauseVideoRecording() async {
	await CameraPlatform.instance.pauseVideoRecording(_cameraId);
	value = value.copyWith(isRecordingPaused: true);
	}

	/// Resume video recording after pausing.
	///
	/// This feature is only available on iOS and Android sdk 24+.
	Future<void> resumeVideoRecording() async {
	await CameraPlatform.instance.resumeVideoRecording(_cameraId);
	value = value.copyWith(isRecordingPaused: false);
	}

	/// Returns a widget showing a live camera preview.
	Widget buildPreview() {
	return CameraPlatform.instance.buildPreview(_cameraId);
	}

	/// Sets the flash mode for taking pictures.
	Future<void> setFlashMode(FlashMode mode) async {
	await CameraPlatform.instance.setFlashMode(_cameraId, mode);
	value = value.copyWith(flashMode: mode);
	}

	/// Sets the exposure mode for taking pictures.
	Future<void> setExposureMode(ExposureMode mode) async {
	await CameraPlatform.instance.setExposureMode(_cameraId, mode);
	value = value.copyWith(exposureMode: mode);
	}

	/// Sets the exposure offset for the selected camera.
	Future<double> setExposureOffset(double offset) async {
	// Check if offset is in range
	final List<double> range = await Future.wait(<Future<double>>[
	CameraPlatform.instance.getMinExposureOffset(_cameraId),
	CameraPlatform.instance.getMaxExposureOffset(_cameraId)
	]);

	// Round to the closest step if needed
	final double stepSize =
	await CameraPlatform.instance.getExposureOffsetStepSize(_cameraId);
	if (stepSize > 0) {
	final double inv = 1.0 / stepSize;
	double roundedOffset = (offset * inv).roundToDouble() / inv;
	if (roundedOffset > range[1]) {
	roundedOffset = (offset * inv).floorToDouble() / inv;
	} else if (roundedOffset < range[0]) {
	roundedOffset = (offset * inv).ceilToDouble() / inv;
	}
	offset = roundedOffset;
	}

	return CameraPlatform.instance.setExposureOffset(_cameraId, offset);
	}

	/// Locks the capture orientation.
	///
	/// If [orientation] is omitted, the current device orientation is used.
	Future<void> lockCaptureOrientation() async {
	await CameraPlatform.instance
	.lockCaptureOrientation(_cameraId, value.deviceOrientation);
	value = value.copyWith(
	lockedCaptureOrientation:
	Optional<DeviceOrientation>.of(value.deviceOrientation));
	}

	/// Unlocks the capture orientation.
	Future<void> unlockCaptureOrientation() async {
	await CameraPlatform.instance.unlockCaptureOrientation(_cameraId);
	value = value.copyWith(
	lockedCaptureOrientation: const Optional<DeviceOrientation>.absent());
	}

	/// Sets the focus mode for taking pictures.
	Future<void> setFocusMode(FocusMode mode) async {
	await CameraPlatform.instance.setFocusMode(_cameraId, mode);
	value = value.copyWith(focusMode: mode);
	}

	/// Releases the resources of this camera.
	@override
	Future<void> dispose() async {
	if (_isDisposed) {
	return;
	}
	_deviceOrientationSubscription?.cancel();
	_isDisposed = true;
	super.dispose();
	if (_initCalled != null) {
	await _initCalled;
	await CameraPlatform.instance.dispose(_cameraId);
	}
	}

	@override
	void removeListener(VoidCallback listener) {
	// Prevent ValueListenableBuilder in CameraPreview widget from causing an
	// exception to be thrown by attempting to remove its own listener after
	// the controller has already been disposed.
	if (!_isDisposed) {
	super.removeListener(listener);
	}
	}
	}

	/// A value that might be absent.
	///
	/// Used to represent [DeviceOrientation]s that are optional but also able
	/// to be cleared.
	@immutable
	class Optional<T> extends IterableBase<T> {
	/// Constructs an empty Optional.
	const Optional.absent() : _value = null;

	/// Constructs an Optional of the given [value].
	///
	/// Throws [ArgumentError] if [value] is null.
	Optional.of(T value) : _value = value {
	// TODO(cbracken): Delete and make this ctor const once mixed-mode
	// execution is no longer around.
	ArgumentError.checkNotNull(value);
	}

	/// Constructs an Optional of the given [value].
	///
	/// If [value] is null, returns [absent()].
	const Optional.fromNullable(T? value) : _value = value;

	final T? _value;

	/// True when this optional contains a value.
	bool get isPresent => _value != null;

	/// True when this optional contains no value.
	bool get isNotPresent => _value == null;

	/// Gets the Optional value.
	///
	/// Throws [StateError] if [value] is null.
	T get value {
	if (_value == null) {
	throw StateError('value called on absent Optional.');
	}
	return _value!;
	}

	/// Executes a function if the Optional value is present.
	void ifPresent(void Function(T value) ifPresent) {
	if (isPresent) {
	ifPresent(_value as T);
	}
	}

	/// Execution a function if the Optional value is absent.
	void ifAbsent(void Function() ifAbsent) {
	if (!isPresent) {
	ifAbsent();
	}
	}

	/// Gets the Optional value with a default.
	///
	/// The default is returned if the Optional is [absent()].
	///
	/// Throws [ArgumentError] if [defaultValue] is null.
	T or(T defaultValue) {
	return _value ?? defaultValue;
	}

	/// Gets the Optional value, or `null` if there is none.
	T? get orNull => _value;

	/// Transforms the Optional value.
	///
	/// If the Optional is [absent()], returns [absent()] without applying the transformer.
	///
	/// The transformer must not return `null`. If it does, an [ArgumentError] is thrown.
	Optional<S> transform<S>(S Function(T value) transformer) {
	return _value == null
	? Optional<S>.absent()
	: Optional<S>.of(transformer(_value as T));
	}

	/// Transforms the Optional value.
	///
	/// If the Optional is [absent()], returns [absent()] without applying the transformer.
	///
	/// Returns [absent()] if the transformer returns `null`.
	Optional<S> transformNullable<S>(S? Function(T value) transformer) {
	return _value == null
	? Optional<S>.absent()
	: Optional<S>.fromNullable(transformer(_value as T));
	}

	@override
	Iterator<T> get iterator =>
	isPresent ? <T>[_value as T].iterator : Iterable<T>.empty().iterator;

	/// Delegates to the underlying [value] hashCode.
	@override
	int get hashCode => _value.hashCode;

	/// Delegates to the underlying [value] operator==.
	@override
	bool operator ==(Object o) => o is Optional<T> && o._value == _value;

	@override
	String toString() {
	return _value == null
	? 'Optional { absent }'
	: 'Optional { value: $_value }';
	}
	}