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457 строки
17 KiB
Plaintext
457 строки
17 KiB
Plaintext
/* -*- Mode: IDL; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/.
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*/
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/* Camera regions are used to set focus and metering areas;
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the coordinates are referenced to the sensor:
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(-1000, -1000) is the top-left corner
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(1000, 1000) is the bottom-right corner
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The weight of the region can range from 0 to 1000. */
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dictionary CameraRegion
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{
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long top = -1000;
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long left = -1000;
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long bottom = 1000;
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long right = 1000;
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unsigned long weight = 1000;
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};
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/* The position information to record in the image header.
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'NaN' indicates the information is not available. */
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dictionary CameraPosition
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{
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unrestricted double latitude = NaN;
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unrestricted double longitude = NaN;
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unrestricted double altitude = NaN;
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unrestricted double timestamp = NaN;
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};
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/*
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Options for takePicture().
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*/
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dictionary CameraPictureOptions
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{
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/* an object with a combination of 'height' and 'width' properties
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chosen from CameraCapabilities.pictureSizes */
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CameraSize pictureSize = null;
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/* one of the file formats chosen from
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CameraCapabilities.fileFormats */
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DOMString fileFormat = "";
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/* the rotation of the image in degrees, from 0 to 270 in
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steps of 90; this doesn't affect the image, only the
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rotation recorded in the image header.*/
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long rotation = 0;
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/* an object containing any or all of 'latitude', 'longitude',
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'altitude', and 'timestamp', used to record when and where
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the image was taken. e.g.
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{
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latitude: 43.647118,
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longitude: -79.3943,
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altitude: 500
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// timestamp not specified, in this case, and
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// won't be included in the image header
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}
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can be null in the case where position information isn't
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available/desired.
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'altitude' is in metres; 'timestamp' is UTC, in seconds from
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January 1, 1970.
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*/
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CameraPosition position = null;
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/* the number of seconds from January 1, 1970 UTC. This can be
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different from the positional timestamp (above). */
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// XXXbz this should really accept a date too, no?
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long long dateTime = 0;
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};
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/* These properties affect the actual video recording, e.g.
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{
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rotation: 0,
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maxFileSizeBytes: 1024 * 1024,
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maxVideoLengthMs: 0
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}
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'rotation' is the degrees clockwise to rotate the recorded video; if
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this options is not supported, it will be ignored; if this option is
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missing, the default is 0.
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'maxFileSizeBytes' is the maximum size in bytes to which the recorded
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video file will be allowed to grow.
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'maxVideoLengthMs' is the maximum length in milliseconds to which the
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recorded video will be allowed to grow.
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if either 'maxFileSizeBytes' or 'maxVideoLengthMs' is missing or zero,
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that limit will be disabled; if either value is out of range, it will
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be clamped from 0 to the upper limit for an 'unsigned long long'.
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*/
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dictionary CameraStartRecordingOptions
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{
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long rotation = 0;
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[Clamp]
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unsigned long long maxFileSizeBytes = 0;
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[Clamp]
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unsigned long long maxVideoLengthMs = 0;
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/* If startRecording() is called with flashMode set to "auto" and the
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camera has determined that the scene is poorly lit, the flash mode
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will be automatically changed to "torch" until stopRecording() is
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called. During this time, flashMode will reflect the new setting. If
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flashMode is changed while recording is in progress, the new setting
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will be left as-is on stopRecording(). If the camera does not
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support this setting, it will be ignored. */
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boolean autoEnableLowLightTorch = false;
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};
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callback CameraSetConfigurationCallback = void (CameraConfiguration configuration);
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callback CameraAutoFocusCallback = void (boolean focused);
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callback CameraTakePictureCallback = void (Blob picture);
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callback CameraStartRecordingCallback = void ();
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callback CameraShutterCallback = void ();
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callback CameraClosedCallback = void ();
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callback CameraReleaseCallback = void ();
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callback CameraRecorderStateChange = void (DOMString newState);
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callback CameraPreviewStateChange = void (DOMString newState);
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callback CameraAutoFocusMovingCallback = void (boolean isMoving);
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/*
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attributes here affect the preview, any pictures taken, and/or
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any video recorded by the camera.
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*/
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[Func="nsDOMCameraControl::HasSupport"]
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interface CameraControl : MediaStream
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{
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[Constant, Cached]
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readonly attribute CameraCapabilities capabilities;
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/* one of the values chosen from capabilities.effects;
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default is "none" */
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[Throws]
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attribute DOMString effect;
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/* one of the values chosen from capabilities.whiteBalanceModes;
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default is "auto" */
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[Throws]
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attribute DOMString whiteBalanceMode;
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/* one of the values chosen from capabilities.sceneModes;
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default is "auto" */
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[Throws]
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attribute DOMString sceneMode;
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/* one of the values chosen from capabilities.flashModes;
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default is "auto" */
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[Throws]
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attribute DOMString flashMode;
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/* one of the values chosen from capabilities.focusModes;
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default is "auto", if supported, or "fixed" */
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[Throws]
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attribute DOMString focusMode;
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/* one of the values chosen from capabilities.zoomRatios; other
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values will be rounded to the nearest supported value;
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default is 1.0 */
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[Throws]
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attribute double zoom;
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/* an array of one or more objects that define where the
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camera will perform light metering, each defining the properties:
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{
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top: -1000,
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left: -1000,
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bottom: 1000,
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right: 1000,
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weight: 1000
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}
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'top', 'left', 'bottom', and 'right' all range from -1000 at
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the top-/leftmost of the sensor to 1000 at the bottom-/rightmost
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of the sensor.
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objects missing one or more of these properties will be ignored;
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if the array contains more than capabilities.maxMeteringAreas,
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extra areas will be ignored.
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if this setter is called with no arguments, the camera will
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determine metering areas on its own. */
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[Throws]
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sequence<CameraRegion> getMeteringAreas();
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[Throws]
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void setMeteringAreas(optional sequence<CameraRegion> meteringAreas);
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/* an array of one or more objects that define where the camera will
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perform auto-focusing, with the same definition as meteringAreas.
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if the array contains more than capabilities.maxFocusAreas, extra
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areas will be ignored.
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if this setter is called with no arguments, the camera will
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determine focus areas on its own. */
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[Throws]
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sequence<CameraRegion> getFocusAreas();
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[Throws]
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void setFocusAreas(optional sequence<CameraRegion> focusAreas);
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/* focal length in millimetres */
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[Throws]
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readonly attribute double focalLength;
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/* the distances in metres to where the image subject appears to be
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in focus. 'focusDistanceOptimum' is where the subject will appear
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sharpest; the difference between 'focusDistanceFar' and
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'focusDistanceNear' is the image's depth of field.
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'focusDistanceFar' may be infinity. */
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[Throws]
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readonly attribute double focusDistanceNear;
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[Throws]
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readonly attribute double focusDistanceOptimum;
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[Throws]
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readonly attribute unrestricted double focusDistanceFar;
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/* over- or under-expose the image; acceptable values must range from
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minExposureCompensation to maxExposureCompensation in steps of
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stepExposureCompensation. Invalid values will be rounded to the nearest
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valid value; out-of-bounds values will be limited to the range
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supported by the camera. */
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[Throws]
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attribute double exposureCompensation;
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/* one of the values chosen from capabilities.isoModes; default
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value is "auto" if supported. */
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[Throws]
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attribute DOMString isoMode;
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/* the function to call on the camera's shutter event, to trigger
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a shutter sound and/or a visual shutter indicator. */
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attribute CameraShutterCallback? onShutter;
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/* the function to call when the camera hardware is closed
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by the underlying framework, e.g. when another app makes a more
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recent call to get the camera. */
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attribute CameraClosedCallback? onClosed;
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/* the function to call when the recorder changes state, either because
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the recording process encountered an error, or because one of the
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recording limits (see CameraStartRecordingOptions) was reached. */
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attribute CameraRecorderStateChange? onRecorderStateChange;
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/* the function to call when the viewfinder stops or starts,
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useful for synchronizing other UI elements. */
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attribute CameraPreviewStateChange? onPreviewStateChange;
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/* the size of the picture to be returned by a call to takePicture();
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an object with 'height' and 'width' properties that corresponds to
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one of the options returned by capabilities.pictureSizes. */
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[Throws]
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CameraSize getPictureSize();
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[Throws]
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void setPictureSize(optional CameraSize size);
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/* if the image blob to be returned by takePicture() supports lossy
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compression, this setting controls the quality-size trade-off;
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valid values range from 0.0 for smallest size/worst quality to 1.0
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for largest size/best quality. Note that depending on the range of
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values supported by the underlying platform, this attribute may not
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'get' the exact value that was previously 'set'. If this setting is
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not supported, it is ignored. */
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[Throws]
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attribute double pictureQuality;
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/* the size of the thumbnail to be included in the picture returned
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by a call to takePicture(), assuming the chosen fileFormat supports
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one; an object with 'height' and 'width' properties that corresponds
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to one of the options returned by capabilities.pictureSizes.
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this setting should be considered a hint: the implementation will
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respect it when possible, and override it if necessary. */
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[Throws]
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CameraSize getThumbnailSize();
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[Throws]
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void setThumbnailSize(optional CameraSize size);
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/* the angle, in degrees, that the image sensor is mounted relative
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to the display; e.g. if 'sensorAngle' is 270 degrees (or -90 degrees),
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then the preview stream needs to be rotated +90 degrees to have the
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same orientation as the real world. */
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readonly attribute long sensorAngle;
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/* tell the camera to attempt to focus the image */
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[Throws]
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void autoFocus(CameraAutoFocusCallback onSuccess, optional CameraErrorCallback onError);
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/* if continuous autofocus is supported and focusMode is set to enable it,
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then this function is called whenever the camera decides to start and
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stop moving the focus position; it can be used to update a UI element to
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indicate that the camera is still trying to focus, or has finished. Some
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platforms do not support this event, in which case the callback is never
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invoked. */
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[Pref="camera.control.autofocus_moving_callback.enabled"]
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attribute CameraAutoFocusMovingCallback? onAutoFocusMoving;
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/* capture an image and return it as a blob to the 'onSuccess' callback;
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if the camera supports it, this may be invoked while the camera is
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already recording video.
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invoking this function will stop the preview stream, which must be
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manually restarted (e.g. by calling .play() on it). */
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[Throws]
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void takePicture(CameraPictureOptions aOptions,
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CameraTakePictureCallback onSuccess,
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optional CameraErrorCallback onError);
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/* start recording video; 'aOptions' is a
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CameraStartRecordingOptions object. */
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[Throws]
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void startRecording(CameraStartRecordingOptions aOptions,
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DeviceStorage storageArea,
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DOMString filename,
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CameraStartRecordingCallback onSuccess,
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optional CameraErrorCallback onError);
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/* stop precording video. */
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[Throws]
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void stopRecording();
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/* call in or after the takePicture() onSuccess callback to
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resume the camera preview stream. */
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[Throws]
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void resumePreview();
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/* release the camera so that other applications can use it; you should
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probably call this whenever the camera is not longer in the foreground
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(depending on your usage model).
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the callbacks are optional, unless you really need to know when
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the hardware is ultimately released.
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once this is called, the camera control object is to be considered
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defunct; a new instance will need to be created to access the camera. */
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[Throws]
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void release(optional CameraReleaseCallback onSuccess,
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optional CameraErrorCallback onError);
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/* changes the camera configuration on the fly;
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'configuration' is of type CameraConfiguration.
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XXXmikeh the 'configuration' argument needs to be optional, else
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the WebIDL compiler throws: "WebIDL.WebIDLError: error: Dictionary
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argument or union argument containing a dictionary not followed by
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a required argument must be optional"
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*/
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[Throws]
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void setConfiguration(optional CameraConfiguration configuration,
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optional CameraSetConfigurationCallback onSuccess,
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optional CameraErrorCallback onError);
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/* if focusMode is set to either 'continuous-picture' or 'continuous-video',
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then calling autoFocus() will trigger its onSuccess callback immediately
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if the camera was either successfully focused, or if no focus could be
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acquired; if the focus acquisition is still in progress, the onSuccess
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callback will be invoked later, its argument indicating success or
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failure.
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once autoFocus() is called with a continuous autofocus mode set, the
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continuous autofocus process is stopped and focus is locked in the
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current state until this method is called.
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*/
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[Throws]
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void resumeContinuousFocus();
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};
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/* The information of the each face detected by a camera device, e.g.
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{
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id: 1,
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score: 80,
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bound: { left: -203,
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top: -400,
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right: 300,
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bottom: 250 },
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leftEye: { x: -100,
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y: -200 },
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rightEye: { x: 100,
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y: 100 },
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mouth: { x: 150,
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y: 150 } }
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'id' is an unique value per face while the face is visible to the tracker.
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If the face leaves the viewfinder and then returns, it will be assigned
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a new value.
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'score' is the confidence level for the detection of the face.
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This range is 1 to 100, where 100 is the highest confidence.
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'bounds' is the bounds of the face. It is guaranteed left < right and
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top < bottom. The coordinates can be smaller than -1000 or bigger than 1000.
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But at least one vertex will be within (-1000, -1000) and (1000, 1000).
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'leftEye' is the coordinates of the centre of the left eye. The coordinates
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are in the same space as the ones for 'bounds'. This is an optional field
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and may not be supported on all devices. If it is not supported or detected,
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the value will be set to null. The x and y coordinates are bounded by the
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range (-1000, 1000) where:
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{ x: -1000, y: -1000 } is the top-left corner
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{ x: 1000, y: 1000 } is the bottom-right corner
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'rightEye' is the coordinates of the detected right eye; null if not
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supported or detected. Same boundary conditions as 'leftEye'.
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'mouth' is the coordinates of the detected mouth; null if not supported or
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detected. Same boundary conditions as 'leftEye'.
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*/
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[Pref="camera.control.face_detection.enabled", Func="DOMCameraDetectedFace::HasSupport"]
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interface CameraDetectedFace
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{
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readonly attribute unsigned long id;
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readonly attribute unsigned long score;
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readonly attribute DOMRect bounds;
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readonly attribute boolean hasLeftEye;
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readonly attribute DOMPoint? leftEye;
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readonly attribute boolean hasRightEye;
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readonly attribute DOMPoint? rightEye;
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readonly attribute boolean hasMouth;
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readonly attribute DOMPoint? mouth;
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};
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callback CameraFaceDetectionCallback = void (sequence<CameraDetectedFace> faces);
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partial interface CameraControl
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{
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/* Starts the face detection. This should be called after the preview is
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started. The camera will periodically call 'onFacesDetected' with a
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sequence of zero or one or more detected faces in the preview frame.
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How often the callback is invoked is implementation dependent.
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This method throws an exception if face detection fails to start.
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*/
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[Throws, Pref="camera.control.face_detection.enabled"]
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void startFaceDetection();
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/* Stops the face detection.
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This method throws an exception if face detection can't be stopped.
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*/
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[Throws, Pref="camera.control.face_detection.enabled"]
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void stopFaceDetection();
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/* Callback for faces detected in the preview frame. If no faces are
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detected, the callback is invoked with an empty sequence. */
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[Pref="camera.control.face_detection.enabled"]
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attribute CameraFaceDetectionCallback? onFacesDetected;
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};
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