feat: New CameraDevice
+ CameraFormat
detection using CameraX (#1495)
* Create CameraDevice.kt * Create VideoStabilizationMode+String.kt * Use CameraX Extensions * Remove `system/no-camera-manager` error
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@ -163,177 +163,20 @@ class CameraViewModule(reactContext: ReactApplicationContext) : ReactContextBase
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}
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}
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// TODO: This uses the Camera2 API to list all characteristics of a camera device and therefore doesn't work with Camera1. Find a way to use CameraX for this
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// https://issuetracker.google.com/issues/179925896
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@ReactMethod
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fun getAvailableCameraDevices(promise: Promise) {
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val startTime = System.currentTimeMillis()
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coroutineScope.launch {
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withPromise(promise) {
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val cameraProvider = ProcessCameraProvider.getInstance(reactApplicationContext).await()
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val extensionsManager = ExtensionsManager.getInstanceAsync(reactApplicationContext, cameraProvider).await()
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val manager = reactApplicationContext.getSystemService(Context.CAMERA_SERVICE) as CameraManager
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val manager = reactApplicationContext.getSystemService(Context.CAMERA_SERVICE) as? CameraManager
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?: throw CameraManagerUnavailableError()
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val cameraDevices: WritableArray = Arguments.createArray()
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manager.cameraIdList.forEach loop@{ id ->
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val cameraSelector = CameraSelector.Builder().byID(id).build()
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val characteristics = manager.getCameraCharacteristics(id)
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val hardwareLevel = characteristics.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL)!!
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val capabilities = characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES)!!
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val isMultiCam = Build.VERSION.SDK_INT >= Build.VERSION_CODES.P &&
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capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA)
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val deviceTypes = characteristics.getDeviceTypes()
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val cameraConfig = characteristics.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!!
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val lensFacing = characteristics.get(CameraCharacteristics.LENS_FACING)!!
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val hasFlash = characteristics.get(CameraCharacteristics.FLASH_INFO_AVAILABLE)!!
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val maxScalerZoom = characteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM)!!
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val supportsDepthCapture = Build.VERSION.SDK_INT >= Build.VERSION_CODES.M &&
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capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT)
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val supportsRawCapture = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_RAW)
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val isoRange = characteristics.get(CameraCharacteristics.SENSOR_INFO_SENSITIVITY_RANGE)
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val digitalStabilizationModes = characteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES)
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val opticalStabilizationModes = characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION)
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val zoomRange = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R)
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characteristics.get(CameraCharacteristics.CONTROL_ZOOM_RATIO_RANGE)
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else null
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val name = if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P)
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characteristics.get(CameraCharacteristics.INFO_VERSION)
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else null
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val fpsRanges = characteristics.get(CameraCharacteristics.CONTROL_AE_AVAILABLE_TARGET_FPS_RANGES)!!
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val supportsHdr = extensionsManager.isExtensionAvailable(cameraSelector, ExtensionMode.HDR)
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val supportsLowLightBoost = extensionsManager.isExtensionAvailable(cameraSelector, ExtensionMode.NIGHT)
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// see https://developer.android.com/reference/android/hardware/camera2/CameraDevice#regular-capture
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val supportsParallelVideoProcessing = hardwareLevel != CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY && hardwareLevel != CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED
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val fieldOfView = characteristics.getFieldOfView()
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val map = Arguments.createMap()
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map.putString("id", id)
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map.putArray("devices", deviceTypes)
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map.putString("position", parseLensFacing(lensFacing))
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map.putString("name", name ?: "${parseLensFacing(lensFacing)} ($id)")
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map.putBoolean("hasFlash", hasFlash)
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map.putBoolean("hasTorch", hasFlash)
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map.putBoolean("isMultiCam", isMultiCam)
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map.putBoolean("supportsParallelVideoProcessing", supportsParallelVideoProcessing)
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map.putBoolean("supportsRawCapture", supportsRawCapture)
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map.putBoolean("supportsDepthCapture", supportsDepthCapture)
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map.putBoolean("supportsLowLightBoost", supportsLowLightBoost)
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map.putBoolean("supportsFocus", true) // I believe every device here supports focussing
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if (zoomRange != null) {
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map.putDouble("minZoom", zoomRange.lower.toDouble())
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map.putDouble("maxZoom", zoomRange.upper.toDouble())
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} else {
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map.putDouble("minZoom", 1.0)
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map.putDouble("maxZoom", maxScalerZoom.toDouble())
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val devices = Arguments.createArray()
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manager.cameraIdList.forEach { cameraId ->
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val device = CameraDevice(manager, extensionsManager, cameraId)
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devices.pushMap(device.toMap())
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}
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map.putDouble("neutralZoom", 1.0)
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val supportedVideoResolutions: List<Size>
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val cameraInfos = cameraSelector.filter(cameraProvider.availableCameraInfos)
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if (cameraInfos.size > 0) {
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supportedVideoResolutions = QualitySelector
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.getSupportedQualities(cameraInfos[0])
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.map { QualitySelector.getResolution(cameraInfos[0], it)!! }
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} else {
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supportedVideoResolutions = emptyList()
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}
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// TODO: Optimize?
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val maxImageOutputSize = cameraConfig.outputFormats
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.flatMap { cameraConfig.getOutputSizes(it).toList() }
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.maxByOrNull { it.width * it.height }!!
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val formats = Arguments.createArray()
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cameraConfig.outputFormats.forEach { formatId ->
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val formatName = parseImageFormat(formatId)
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cameraConfig.getOutputSizes(formatId).forEach { size ->
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val isHighestPhotoQualitySupported = areUltimatelyEqual(size, maxImageOutputSize)
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// Get the number of seconds that each frame will take to process
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val secondsPerFrame = try {
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cameraConfig.getOutputMinFrameDuration(formatId, size) / 1_000_000_000.0
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} catch (error: Throwable) {
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Log.e(TAG, "Minimum Frame Duration for MediaRecorder Output cannot be calculated, format \"$formatName\" is not supported.")
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null
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}
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val frameRateRanges = Arguments.createArray()
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if (secondsPerFrame != null && secondsPerFrame > 0) {
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val fps = (1.0 / secondsPerFrame).toInt()
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val frameRateRange = Arguments.createMap()
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frameRateRange.putInt("minFrameRate", 1)
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frameRateRange.putInt("maxFrameRate", fps)
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frameRateRanges.pushMap(frameRateRange)
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}
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fpsRanges.forEach { range ->
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val frameRateRange = Arguments.createMap()
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frameRateRange.putInt("minFrameRate", range.lower)
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frameRateRange.putInt("maxFrameRate", range.upper)
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frameRateRanges.pushMap(frameRateRange)
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}
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val colorSpaces = Arguments.createArray()
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colorSpaces.pushString(formatName)
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val videoStabilizationModes = Arguments.createArray()
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videoStabilizationModes.pushString("off")
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if (digitalStabilizationModes != null) {
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if (digitalStabilizationModes.contains(CameraCharacteristics.CONTROL_VIDEO_STABILIZATION_MODE_ON)) {
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videoStabilizationModes.pushString("auto")
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videoStabilizationModes.pushString("standard")
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}
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}
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if (opticalStabilizationModes != null) {
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if (opticalStabilizationModes.contains(CameraCharacteristics.LENS_OPTICAL_STABILIZATION_MODE_ON)) {
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videoStabilizationModes.pushString("cinematic")
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}
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}
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// TODO: Get the pixel format programatically rather than assuming a default of 420v
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val pixelFormat = "420v"
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val format = Arguments.createMap()
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format.putDouble("photoHeight", size.height.toDouble())
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format.putDouble("photoWidth", size.width.toDouble())
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// since supportedVideoResolutions is sorted from highest resolution to lowest,
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// videoResolution will be the highest supported video resolution lower than or equal to photo resolution
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// TODO: Somehow integrate with CamcorderProfileProxy?
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val videoResolution = supportedVideoResolutions.find { it.width <= size.width && it.height <= size.height }
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format.putDouble("videoHeight", videoResolution?.height?.toDouble())
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format.putDouble("videoWidth", videoResolution?.width?.toDouble())
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format.putBoolean("isHighestPhotoQualitySupported", isHighestPhotoQualitySupported)
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format.putInt("maxISO", isoRange?.upper)
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format.putInt("minISO", isoRange?.lower)
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format.putDouble("fieldOfView", fieldOfView) // TODO: Revisit getAvailableCameraDevices (is fieldOfView accurate?)
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format.putDouble("maxZoom", (zoomRange?.upper ?: maxScalerZoom).toDouble())
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format.putArray("colorSpaces", colorSpaces)
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format.putBoolean("supportsVideoHDR", false) // TODO: supportsVideoHDR
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format.putBoolean("supportsPhotoHDR", supportsHdr)
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format.putArray("frameRateRanges", frameRateRanges)
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format.putString("autoFocusSystem", "none") // TODO: Revisit getAvailableCameraDevices (autoFocusSystem) (CameraCharacteristics.CONTROL_AF_AVAILABLE_MODES or CameraCharacteristics.LENS_INFO_FOCUS_DISTANCE_CALIBRATION)
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format.putArray("videoStabilizationModes", videoStabilizationModes)
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format.putString("pixelFormat", pixelFormat)
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formats.pushMap(format)
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}
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}
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map.putArray("formats", formats)
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cameraDevices.pushMap(map)
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}
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val difference = System.currentTimeMillis() - startTime
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Log.w(TAG, "CameraViewModule::getAvailableCameraDevices took: $difference ms")
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return@withPromise cameraDevices
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promise.resolve(devices)
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}
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}
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}
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@ -106,7 +106,6 @@ class FileSizeLimitReachedError(cause: Throwable?) : CameraError("capture", "fil
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class NoRecordingInProgressError : CameraError("capture", "no-recording-in-progress", "No active recording in progress!")
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class CameraManagerUnavailableError : CameraError("system", "no-camera-manager", "The Camera manager instance was unavailable for the current Application!")
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class ViewNotFoundError(viewId: Int) : CameraError("system", "view-not-found", "The given view (ID $viewId) was not found in the view manager.")
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class UnknownCameraError(cause: Throwable?) : CameraError("unknown", "unknown", cause?.message ?: "An unknown camera error occured.", cause)
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@ -0,0 +1,12 @@
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package com.mrousavy.camera.parsers
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import android.hardware.camera2.CameraMetadata.*
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fun parseVideoStabilizationMode(stabiliazionMode: Int): String {
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return when (stabiliazionMode) {
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CONTROL_VIDEO_STABILIZATION_MODE_OFF -> "off"
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CONTROL_VIDEO_STABILIZATION_MODE_ON -> "standard"
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CONTROL_VIDEO_STABILIZATION_MODE_PREVIEW_STABILIZATION -> "cinematic"
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else -> "off"
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}
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}
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android/src/main/java/com/mrousavy/camera/utils/CameraDevice.kt
Normal file
219
android/src/main/java/com/mrousavy/camera/utils/CameraDevice.kt
Normal file
@ -0,0 +1,219 @@
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package com.mrousavy.camera.utils
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import android.hardware.camera2.CameraCharacteristics
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import android.hardware.camera2.CameraExtensionCharacteristics
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import android.hardware.camera2.CameraManager
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import android.hardware.camera2.CameraMetadata
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import android.hardware.camera2.params.DynamicRangeProfiles
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import android.os.Build
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import android.util.Range
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import android.util.Size
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import androidx.camera.core.CameraSelector
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import androidx.camera.extensions.ExtensionMode
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import androidx.camera.extensions.ExtensionsManager
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import com.facebook.react.bridge.Arguments
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import com.facebook.react.bridge.ReadableArray
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import com.facebook.react.bridge.ReadableMap
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import com.mrousavy.camera.parsers.bigger
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import com.mrousavy.camera.parsers.parseImageFormat
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import com.mrousavy.camera.parsers.parseLensFacing
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import com.mrousavy.camera.parsers.parseVideoStabilizationMode
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import kotlin.math.PI
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import kotlin.math.atan
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class CameraDevice(private val cameraManager: CameraManager, extensionsManager: ExtensionsManager, private val cameraId: String) {
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private val cameraSelector = CameraSelector.Builder().byID(cameraId).build()
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private val characteristics = cameraManager.getCameraCharacteristics(cameraId)
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private val hardwareLevel = characteristics.get(CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL) ?: CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY
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private val capabilities = characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES) ?: IntArray(0)
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private val extensions = getSupportedExtensions()
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// device characteristics
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private val isMultiCam = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_LOGICAL_MULTI_CAMERA)
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private val supportsDepthCapture = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_DEPTH_OUTPUT)
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private val supportsRawCapture = capabilities.contains(CameraCharacteristics.REQUEST_AVAILABLE_CAPABILITIES_RAW)
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private val supportsLowLightBoost = extensionsManager.isExtensionAvailable(cameraSelector, ExtensionMode.NIGHT) || extensions.contains(CameraExtensionCharacteristics.EXTENSION_NIGHT)
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private val lensFacing = characteristics.get(CameraCharacteristics.LENS_FACING)!!
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private val hasFlash = characteristics.get(CameraCharacteristics.FLASH_INFO_AVAILABLE) ?: false
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private val focalLengths = characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_FOCAL_LENGTHS) ?: FloatArray(0)
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private val sensorSize = characteristics.get(CameraCharacteristics.SENSOR_INFO_PHYSICAL_SIZE)!!
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private val name = (if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.P) characteristics.get(CameraCharacteristics.INFO_VERSION)
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else null) ?: "${parseLensFacing(lensFacing)} (${cameraId})"
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// "formats" (all possible configurations for this device)
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private val zoomRange = (if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.R) characteristics.get(CameraCharacteristics.CONTROL_ZOOM_RATIO_RANGE)
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else null) ?: Range(1f, characteristics.get(CameraCharacteristics.SCALER_AVAILABLE_MAX_DIGITAL_ZOOM) ?: 1f)
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private val minZoom = zoomRange.lower.toDouble()
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private val maxZoom = zoomRange.upper.toDouble()
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private val cameraConfig = characteristics.get(CameraCharacteristics.SCALER_STREAM_CONFIGURATION_MAP)!!
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private val isoRange = characteristics.get(CameraCharacteristics.SENSOR_INFO_SENSITIVITY_RANGE) ?: Range(0, 0)
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private val digitalStabilizationModes = characteristics.get(CameraCharacteristics.CONTROL_AVAILABLE_VIDEO_STABILIZATION_MODES) ?: IntArray(0)
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private val opticalStabilizationModes = characteristics.get(CameraCharacteristics.LENS_INFO_AVAILABLE_OPTICAL_STABILIZATION) ?: IntArray(0)
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private val supportsPhotoHdr = extensionsManager.isExtensionAvailable(cameraSelector, ExtensionMode.HDR) || extensions.contains(CameraExtensionCharacteristics.EXTENSION_HDR)
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private val supportsVideoHdr = getHasVideoHdr()
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// see https://developer.android.com/reference/android/hardware/camera2/CameraDevice#regular-capture
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private val supportsParallelVideoProcessing = hardwareLevel != CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LEGACY && hardwareLevel != CameraCharacteristics.INFO_SUPPORTED_HARDWARE_LEVEL_LIMITED
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// get extensions (HDR, Night Mode, ..)
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private fun getSupportedExtensions(): List<Int> {
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return if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.S) {
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val extensions = cameraManager.getCameraExtensionCharacteristics(cameraId)
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extensions.supportedExtensions
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} else {
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emptyList()
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}
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}
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private fun getHasVideoHdr(): Boolean {
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if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.TIRAMISU) {
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if (capabilities.contains(CameraMetadata.REQUEST_AVAILABLE_CAPABILITIES_DYNAMIC_RANGE_TEN_BIT)) {
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val availableProfiles = characteristics.get(CameraCharacteristics.REQUEST_AVAILABLE_DYNAMIC_RANGE_PROFILES)
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?: DynamicRangeProfiles(LongArray(0))
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return availableProfiles.supportedProfiles.contains(DynamicRangeProfiles.HLG10)
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}
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}
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return false
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}
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private fun createFrameRateRanges(ranges: Array<Range<Int>>): ReadableArray {
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val array = Arguments.createArray()
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ranges.forEach { range ->
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val map = Arguments.createMap()
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map.putInt("minFrameRate", range.lower)
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map.putInt("maxFrameRate", range.upper)
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array.pushMap(map)
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}
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return array
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}
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private fun createFrameRateRanges(minFps: Int, maxFps: Int): ReadableArray {
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return createFrameRateRanges(arrayOf(Range(minFps, maxFps)))
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}
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private fun createColorSpaces(): ReadableArray {
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val array = Arguments.createArray()
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array.pushString("yuv")
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return array
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}
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private fun createStabilizationModes(): ReadableArray {
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val array = Arguments.createArray()
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val videoStabilizationModes = digitalStabilizationModes.plus(opticalStabilizationModes)
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videoStabilizationModes.forEach { videoStabilizationMode ->
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array.pushString(parseVideoStabilizationMode(videoStabilizationMode))
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}
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return array
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}
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// 35mm is 135 film format, a standard in which focal lengths are usually measured
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private val size35mm = Size(36, 24)
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private fun getDeviceTypes(): ReadableArray {
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// TODO: Check if getDeviceType() works correctly, even for logical multi-cameras
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// To get valid focal length standards we have to upscale to the 35mm measurement (film standard)
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val cropFactor = size35mm.bigger / sensorSize.bigger
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val deviceTypes = Arguments.createArray()
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// https://en.wikipedia.org/wiki/Telephoto_lens
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val containsTelephoto = focalLengths.any { l -> (l * cropFactor) > 35 } // TODO: Telephoto lenses are > 85mm, but we don't have anything between that range..
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// val containsNormalLens = focalLengths.any { l -> (l * cropFactor) > 35 && (l * cropFactor) <= 55 }
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// https://en.wikipedia.org/wiki/Wide-angle_lens
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val containsWideAngle = focalLengths.any { l -> (l * cropFactor) >= 24 && (l * cropFactor) <= 35 }
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// https://en.wikipedia.org/wiki/Ultra_wide_angle_lens
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val containsUltraWideAngle = focalLengths.any { l -> (l * cropFactor) < 24 }
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if (containsTelephoto)
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deviceTypes.pushString("telephoto-camera")
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if (containsWideAngle)
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deviceTypes.pushString("wide-angle-camera")
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if (containsUltraWideAngle)
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deviceTypes.pushString("ultra-wide-angle-camera")
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return deviceTypes
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}
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private fun getFieldOfView(): Double {
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return 2 * atan(sensorSize.bigger / (focalLengths[0] * 2)) * (180 / PI)
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}
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private fun buildFormatMap(outputSize: Size, outputFormat: Int, fpsRanges: ReadableArray): ReadableMap {
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val highResSizes = (if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.M) cameraConfig.getHighResolutionOutputSizes(outputFormat) else null) ?: emptyArray()
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val map = Arguments.createMap()
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map.putInt("photoHeight", outputSize.height)
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map.putInt("photoWidth", outputSize.width)
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map.putInt("videoHeight", outputSize.height)
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map.putInt("videoWidth", outputSize.width)
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map.putBoolean("isHighestPhotoQualitySupported", highResSizes.contains(outputSize))
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map.putInt("maxISO", isoRange.upper)
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map.putInt("minISO", isoRange.lower)
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map.putDouble("fieldOfView", getFieldOfView())
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map.putArray("colorSpaces", createColorSpaces())
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map.putBoolean("supportsVideoHDR", supportsVideoHdr)
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map.putBoolean("supportsPhotoHDR", supportsPhotoHdr)
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map.putString("autoFocusSystem", "contrast-detection") // TODO: Is this wrong?
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map.putArray("videoStabilizationModes", createStabilizationModes())
|
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map.putString("pixelFormat", parseImageFormat(outputFormat))
|
||||
map.putArray("frameRateRanges", fpsRanges)
|
||||
return map
|
||||
}
|
||||
|
||||
private fun getFormats(): ReadableArray {
|
||||
val array = Arguments.createArray()
|
||||
|
||||
val highSpeedSizes = cameraConfig.highSpeedVideoSizes
|
||||
|
||||
val outputFormats = cameraConfig.outputFormats
|
||||
outputFormats.forEach { outputFormat ->
|
||||
// Normal Video/Photo Sizes
|
||||
val outputSizes = cameraConfig.getOutputSizes(outputFormat)
|
||||
outputSizes.forEach { outputSize ->
|
||||
val frameDuration = cameraConfig.getOutputMinFrameDuration(outputFormat, outputSize)
|
||||
val maxFps = (1.0 / (frameDuration.toDouble() / 1000000000)).toInt()
|
||||
val minFps = 1
|
||||
|
||||
val map = buildFormatMap(outputSize, outputFormat, createFrameRateRanges(minFps, maxFps))
|
||||
array.pushMap(map)
|
||||
}
|
||||
|
||||
// High-Speed (Slow Motion) Video Sizes
|
||||
highSpeedSizes.forEach { outputSize ->
|
||||
val highSpeedRanges = cameraConfig.getHighSpeedVideoFpsRangesFor(outputSize)
|
||||
|
||||
val map = buildFormatMap(outputSize, outputFormat, createFrameRateRanges(highSpeedRanges))
|
||||
array.pushMap(map)
|
||||
}
|
||||
}
|
||||
|
||||
return array
|
||||
}
|
||||
|
||||
// convert to React Native JS object (map)
|
||||
fun toMap(): ReadableMap {
|
||||
val map = Arguments.createMap()
|
||||
map.putString("id", cameraId)
|
||||
map.putArray("devices", getDeviceTypes())
|
||||
map.putString("position", parseLensFacing(lensFacing))
|
||||
map.putString("name", name)
|
||||
map.putBoolean("hasFlash", hasFlash)
|
||||
map.putBoolean("hasTorch", hasFlash)
|
||||
map.putBoolean("isMultiCam", isMultiCam)
|
||||
map.putBoolean("supportsParallelVideoProcessing", supportsParallelVideoProcessing)
|
||||
map.putBoolean("supportsRawCapture", supportsRawCapture)
|
||||
map.putBoolean("supportsDepthCapture", supportsDepthCapture)
|
||||
map.putBoolean("supportsLowLightBoost", supportsLowLightBoost)
|
||||
map.putBoolean("supportsFocus", true) // I believe every device here supports focussing
|
||||
map.putDouble("minZoom", minZoom)
|
||||
map.putDouble("maxZoom", maxZoom)
|
||||
map.putDouble("neutralZoom", 1.0) // Zoom is always relative to 1.0 on Android
|
||||
|
||||
map.putArray("formats", getFormats())
|
||||
|
||||
return map
|
||||
}
|
||||
}
|
@ -252,23 +252,6 @@ enum CaptureError {
|
||||
}
|
||||
}
|
||||
|
||||
// MARK: - SystemError
|
||||
|
||||
enum SystemError: String {
|
||||
case noManager = "no-camera-manager"
|
||||
|
||||
var code: String {
|
||||
return rawValue
|
||||
}
|
||||
|
||||
var message: String {
|
||||
switch self {
|
||||
case .noManager:
|
||||
return "No Camera Manager was found."
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// MARK: - CameraError
|
||||
|
||||
enum CameraError: Error {
|
||||
@ -295,8 +278,6 @@ enum CameraError: Error {
|
||||
return "session/\(id.code)"
|
||||
case let .capture(id: id):
|
||||
return "capture/\(id.code)"
|
||||
case let .system(id: id):
|
||||
return "system/\(id.code)"
|
||||
case .unknown:
|
||||
return "unknown/unknown"
|
||||
}
|
||||
@ -316,8 +297,6 @@ enum CameraError: Error {
|
||||
return id.message
|
||||
case let .capture(id: id):
|
||||
return id.message
|
||||
case let .system(id: id):
|
||||
return id.message
|
||||
case let .unknown(message: message):
|
||||
return message ?? "An unexpected error occured."
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user