react-native-vision-camera/android/src/main/java/com/mrousavy/camera/CameraView.kt
2021-02-19 20:41:49 +01:00

416 lines
19 KiB
Kotlin

package com.mrousavy.camera
import android.Manifest
import android.annotation.SuppressLint
import android.content.Context
import android.content.pm.PackageManager
import android.hardware.camera2.*
import android.util.Log
import android.util.Range
import android.view.*
import android.view.View.OnTouchListener
import android.widget.FrameLayout
import androidx.camera.camera2.interop.Camera2Interop
import androidx.camera.core.*
import androidx.camera.core.impl.*
import androidx.camera.extensions.HdrImageCaptureExtender
import androidx.camera.extensions.HdrPreviewExtender
import androidx.camera.extensions.NightImageCaptureExtender
import androidx.camera.extensions.NightPreviewExtender
import androidx.camera.view.PreviewView
import androidx.core.content.ContextCompat
import androidx.lifecycle.*
import com.cuvent.experiences.friends.camera.utils.*
import com.facebook.react.bridge.*
import com.facebook.react.uimanager.events.RCTEventEmitter
import kotlinx.coroutines.*
import java.lang.IllegalArgumentException
import java.util.concurrent.Executors
import kotlin.math.max
import kotlin.math.min
// CaptureRequest.java
// TODO: CONTROL_AE_ANTIBANDING_MODE (60Hz, 50Hz lights)
// TODO: CONTROL_AE_MODE for RedEye reduction
// TODO: CONTROL_AE_TARGET_FPS_RANGE if FPS changes
// TODO: CONTROL_CAPTURE_INTENT for prioritization (Preview, Still Capture, Video recording)
// TODO: CONTROL_EFFECT_MODE for color filters/effects
// TODO: CONTROL_SCENE_MODE contains HDR, do I need that?
// TODO: CONTROL_VIDEO_STABILIZATION_MODE and STATISTICS_OIS_DATA_MODE for stabilization techniques
// TODO: CONTROL_ENABLE_ZSL for Zero Shutter Lag (speed prio)
// TODO: EDGE_MODE not sure what that is
// TODO: JPEG_xxx other JPEG options
// TODO: NOISE_REDUCTION_MODE also maybe ZSL
// TODO: SCALER_CROP_REGION for digital zoom
// TODO: SENSOR_FRAME_DURATION for FPS
//
// TODOs for the CameraView which are currently too hard to implement either because of CameraX' limitations, or my brain capacity.
//
// CameraView
// TODO: Configurable FPS higher than 30
// TODO: High-speed video recordings (export in CameraViewModule::getAvailableVideoDevices(), and set in CameraView::configurePreview()) (120FPS+)
// TODO: configureSession() Use format (photoWidth/photoHeight)
// TODO: configureSession() enableDepthData
// TODO: configureSession() enableHighResolutionCapture
// TODO: configureSession() enablePortraitEffectsMatteDelivery
// TODO: configureSession() scannableCodes | onCodeScanned
// TODO: configureSession() colorSpace
// CameraView+RecordVideo
// TODO: Better startRecording()/stopRecording() (promise + callback, wait for TurboModules/JSI)
// TODO: videoStabilizationMode
// TODO: Video HDR
// CameraView+TakePhoto
// TODO: takePhoto() depth data
// TODO: takePhoto() raw capture
// TODO: takePhoto() photoCodec ("hevc" | "jpeg" | "raw")
// TODO: takePhoto() qualityPrioritization
// TODO: takePhoto() enableAutoRedEyeReduction
// TODO: takePhoto() enableVirtualDeviceFusion
// TODO: takePhoto() enableAutoStabilization
// TODO: takePhoto() enableAutoDistortionCorrection
// TODO: takePhoto() return with jsi::Value Image reference for faster capture
@SuppressLint("ClickableViewAccessibility") // suppresses the warning that the pinch to zoom gesture is not accessible
class CameraView(context: Context) : FrameLayout(context), LifecycleOwner {
// react properties
// props that require reconfiguring
var cameraId: String? = null // this is actually not a react prop directly, but the result of setting device={}
var enableDepthData = false
var enableHighResolutionCapture: Boolean? = null
var enablePortraitEffectsMatteDelivery = false
var scannableCodes: ReadableArray? = null
// props that require format reconfiguring
var format: ReadableMap? = null
var fps: Int? = null
var hdr: Boolean? = null // nullable bool
var colorSpace: String? = null
var lowLightBoost: Boolean? = null // nullable bool
// other props
var isActive = false
var torch = "off"
var zoom = 0.0 // in percent
var enableZoomGesture = false
// private properties
private val reactContext: ReactContext
get() = context as ReactContext
internal val previewView: PreviewView
private val cameraExecutor = Executors.newSingleThreadExecutor()
internal val takePhotoExecutor = Executors.newSingleThreadExecutor()
internal val recordVideoExecutor = Executors.newSingleThreadExecutor()
internal var camera: Camera? = null
internal var imageCapture: ImageCapture? = null
internal var videoCapture: VideoCapture? = null
private val scaleGestureListener: ScaleGestureDetector.SimpleOnScaleGestureListener
private val scaleGestureDetector: ScaleGestureDetector
private val touchEventListener: OnTouchListener
private val lifecycleRegistry: LifecycleRegistry
private var hostLifecycleState: Lifecycle.State
private var minZoom: Float = 1f
private var maxZoom: Float = 1f
init {
previewView = PreviewView(context)
previewView.layoutParams = LayoutParams(LayoutParams.MATCH_PARENT, LayoutParams.MATCH_PARENT)
previewView.installHierarchyFitter() // If this is not called correctly, view finder will be black/blank
addView(previewView)
scaleGestureListener = object : ScaleGestureDetector.SimpleOnScaleGestureListener() {
override fun onScale(detector: ScaleGestureDetector): Boolean {
zoom = min(max(((zoom + 1) * detector.scaleFactor) - 1, 0.0), 1.0)
update(arrayListOf("zoom"))
return true
}
}
scaleGestureDetector = ScaleGestureDetector(context, scaleGestureListener)
touchEventListener = OnTouchListener { _, event -> return@OnTouchListener scaleGestureDetector.onTouchEvent(event) }
hostLifecycleState = Lifecycle.State.INITIALIZED
lifecycleRegistry = LifecycleRegistry(this)
reactContext.addLifecycleEventListener(object : LifecycleEventListener {
override fun onHostResume() {
hostLifecycleState = Lifecycle.State.RESUMED
updateLifecycleState()
}
override fun onHostPause() {
hostLifecycleState = Lifecycle.State.CREATED
updateLifecycleState()
}
override fun onHostDestroy() {
hostLifecycleState = Lifecycle.State.DESTROYED
updateLifecycleState()
cameraExecutor.shutdown()
takePhotoExecutor.shutdown()
recordVideoExecutor.shutdown()
}
})
}
override fun getLifecycle(): Lifecycle {
return lifecycleRegistry
}
/**
* Updates the custom Lifecycle to match the host activity's lifecycle, and if it's active we narrow it down to the [isActive] and [isAttachedToWindow] fields.
*/
private fun updateLifecycleState() {
val lifecycleBefore = lifecycleRegistry.currentState
if (hostLifecycleState == Lifecycle.State.RESUMED) {
// Host Lifecycle (Activity) is currently active (RESUMED), so we narrow it down to the view's lifecycle
if (isActive && isAttachedToWindow) {
lifecycleRegistry.currentState = Lifecycle.State.RESUMED
} else {
lifecycleRegistry.currentState = Lifecycle.State.CREATED
}
} else {
// Host Lifecycle (Activity) is currently inactive (STARTED or DESTROYED), so that overrules our view's lifecycle
lifecycleRegistry.currentState = hostLifecycleState
}
Log.d(REACT_CLASS, "Lifecycle went from ${lifecycleBefore.name} -> ${lifecycleRegistry.currentState.name} (isActive: $isActive | isAttachedToWindow: $isAttachedToWindow)")
}
override fun onAttachedToWindow() {
super.onAttachedToWindow()
updateLifecycleState()
}
override fun onDetachedFromWindow() {
super.onDetachedFromWindow()
updateLifecycleState()
}
/**
* Invalidate all React Props and reconfigure the device
*/
fun update(changedProps: ArrayList<String>) = GlobalScope.launch(Dispatchers.Main) {
try {
val shouldReconfigureSession = changedProps.containsAny(propsThatRequireSessionReconfiguration)
val shouldReconfigureZoom = shouldReconfigureSession || changedProps.contains("zoom")
val shouldReconfigureTorch = shouldReconfigureSession || changedProps.contains("torch")
if (changedProps.contains("isActive")) {
updateLifecycleState()
}
if (shouldReconfigureSession) {
configureSession()
}
if (shouldReconfigureZoom) {
val scaled = (zoom.toFloat() * (maxZoom - minZoom)) + minZoom
camera!!.cameraControl.setZoomRatio(scaled)
}
if (shouldReconfigureTorch) {
camera!!.cameraControl.enableTorch(torch == "on")
}
if (changedProps.contains("enableZoomGesture")) {
setOnTouchListener(if (enableZoomGesture) touchEventListener else null)
}
} catch (e: CameraError) {
invokeOnError(e)
}
}
/**
* Configures the camera capture session. This should only be called when the camera device changes.
*/
@SuppressLint("UnsafeExperimentalUsageError", "RestrictedApi")
private suspend fun configureSession() {
try {
Log.d(REACT_CLASS, "Configuring session...")
if (ContextCompat.checkSelfPermission(context, Manifest.permission.CAMERA) != PackageManager.PERMISSION_GRANTED) {
throw MicrophonePermissionError()
}
if (ContextCompat.checkSelfPermission(context, Manifest.permission.RECORD_AUDIO) != PackageManager.PERMISSION_GRANTED) {
throw CameraPermissionError()
}
if (cameraId == null) {
throw NoCameraDeviceError()
}
if (format != null)
Log.d(REACT_CLASS, "Configuring session with Camera ID $cameraId and custom format...")
else
Log.d(REACT_CLASS, "Configuring session with Camera ID $cameraId and default format options...")
// Used to bind the lifecycle of cameras to the lifecycle owner
val cameraProvider = getCameraProvider(context)
val cameraSelector = CameraSelector.Builder().byID(cameraId!!).build()
val rotation = previewView.display.rotation
val aspectRatio = aspectRatio(previewView.width, previewView.height)
val previewBuilder = Preview.Builder()
.setTargetAspectRatio(aspectRatio)
.setTargetRotation(rotation)
val imageCaptureBuilder = ImageCapture.Builder()
.setTargetAspectRatio(aspectRatio)
.setTargetRotation(rotation)
.setCaptureMode(ImageCapture.CAPTURE_MODE_MINIMIZE_LATENCY)
val videoCaptureBuilder = VideoCapture.Builder()
.setTargetAspectRatio(aspectRatio)
.setTargetRotation(rotation)
if (format != null) {
// User has selected a custom format={}. Use that
val format = DeviceFormat(format!!)
// The format (exported in CameraViewModule) specifies the resolution in ROTATION_90 (horizontal)
val rotationRelativeToFormat = rotation - 1 // subtract one, so that ROTATION_90 becomes ROTATION_0 and so on
fps?.let { fps ->
if (format.frameRateRanges.any { it.contains(fps) }) {
// Camera supports the given FPS (frame rate range)
val frameDuration = (1.0 / fps.toDouble()).toLong() * 1_000_000_000
Log.d(REACT_CLASS, "Setting AE_TARGET_FPS_RANGE to $fps-$fps, and SENSOR_FRAME_DURATION to $frameDuration")
Camera2Interop.Extender(previewBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE, Range(fps, fps))
.setCaptureRequestOption(CaptureRequest.SENSOR_FRAME_DURATION, frameDuration)
Camera2Interop.Extender(videoCaptureBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_AE_TARGET_FPS_RANGE, Range(fps, fps))
.setCaptureRequestOption(CaptureRequest.SENSOR_FRAME_DURATION, frameDuration)
} else {
throw FpsNotContainedInFormatError(fps)
}
}
hdr?.let { hdr ->
// Enable HDR scene mode if set
if (hdr) {
val imageExtension = HdrImageCaptureExtender.create(imageCaptureBuilder)
val previewExtension = HdrPreviewExtender.create(previewBuilder)
val isExtensionAvailable = imageExtension.isExtensionAvailable(cameraSelector) &&
previewExtension.isExtensionAvailable(cameraSelector)
if (isExtensionAvailable) {
Log.d(REACT_CLASS, "Enabling native HDR extension...")
imageExtension.enableExtension(cameraSelector)
previewExtension.enableExtension(cameraSelector)
} else {
if (android.os.Build.VERSION.SDK_INT >= android.os.Build.VERSION_CODES.LOLLIPOP_MR1) {
Log.d(REACT_CLASS, "Native HDR extension not available, falling back to CONTROL_SCENE_MODE...")
Camera2Interop.Extender(previewBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
Camera2Interop.Extender(imageCaptureBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
Camera2Interop.Extender(videoCaptureBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_HDR)
} else {
Log.d(REACT_CLASS, "Native HDR extension and CONTROL_SCENE_MODE_HDR not available!")
throw UnsupportedOSError("hdr", "true", "5.1 (Lollipop/22)")
}
}
}
}
lowLightBoost?.let { lowLightBoost ->
if (lowLightBoost) {
val imageExtension = NightImageCaptureExtender.create(imageCaptureBuilder)
val previewExtension = NightPreviewExtender.create(previewBuilder)
val isExtensionAvailable = imageExtension.isExtensionAvailable(cameraSelector) &&
previewExtension.isExtensionAvailable(cameraSelector)
if (isExtensionAvailable) {
Log.d(REACT_CLASS, "Enabling native night-mode extension...")
imageExtension.enableExtension(cameraSelector)
previewExtension.enableExtension(cameraSelector)
} else {
Log.d(REACT_CLASS, "Native night-mode extension not available, falling back to CONTROL_SCENE_MODE...")
Camera2Interop.Extender(previewBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_NIGHT)
Camera2Interop.Extender(imageCaptureBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_NIGHT)
Camera2Interop.Extender(videoCaptureBuilder)
.setCaptureRequestOption(CaptureRequest.CONTROL_SCENE_MODE, CaptureRequest.CONTROL_SCENE_MODE_NIGHT)
}
}
}
// TODO: qualityPrioritization for ImageCapture
imageCaptureBuilder.setCaptureMode(ImageCapture.CAPTURE_MODE_MINIMIZE_LATENCY)
val photoResolution = format.photoSize.rotated(rotationRelativeToFormat)
// TODO: imageCaptureBuilder.setTargetResolution(photoResolution)
Log.d(REACT_CLASS, "Using Photo Capture resolution $photoResolution")
fps?.let { fps ->
Log.d(REACT_CLASS, "Setting video recording FPS to $fps")
videoCaptureBuilder.setVideoFrameRate(fps)
}
}
val preview = previewBuilder.build()
imageCapture = imageCaptureBuilder.build()
videoCapture = videoCaptureBuilder.build()
// Unbind use cases before rebinding
cameraProvider.unbindAll()
// Bind use cases to camera
camera = cameraProvider.bindToLifecycle(this, cameraSelector, preview, imageCapture!!, videoCapture!!)
preview.setSurfaceProvider(previewView.surfaceProvider)
minZoom = camera!!.cameraInfo.zoomState.value?.minZoomRatio ?: 1f
maxZoom = camera!!.cameraInfo.zoomState.value?.maxZoomRatio ?: 1f
Log.d(REACT_CLASS, "Session configured! Camera: ${camera!!}")
invokeOnInitialized()
} catch(exc: Throwable) {
throw when (exc) {
is CameraError -> exc
is IllegalArgumentException -> InvalidCameraDeviceError(exc)
else -> UnknownCameraError(exc)
}
}
}
fun getAvailablePhotoCodecs(): WritableArray {
// TODO
return Arguments.createArray()
}
fun getAvailableVideoCodecs(): WritableArray {
// TODO
return Arguments.createArray()
}
override fun onLayout(changed: Boolean, left: Int, top: Int, right: Int, bottom: Int) {
super.onLayout(changed, left, top, right, bottom)
Log.i(REACT_CLASS, "onLayout($changed, $left, $top, $right, $bottom) was called! (Width: $width, Height: $height)")
}
private fun invokeOnInitialized() {
val reactContext = context as ReactContext
reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraInitialized", null)
}
private fun invokeOnError(error: CameraError) {
val event = Arguments.createMap()
event.putString("code", error.code)
event.putString("message", error.message)
error.cause?.let { cause ->
event.putMap("cause", errorToMap(cause))
}
val reactContext = context as ReactContext
reactContext.getJSModule(RCTEventEmitter::class.java).receiveEvent(id, "cameraError", event)
}
private fun errorToMap(error: Throwable): WritableMap {
val map = Arguments.createMap()
map.putString("message", error.message)
map.putString("stacktrace", error.stackTraceToString())
error.cause?.let { cause ->
map.putMap("cause", errorToMap(cause))
}
return map
}
companion object {
const val REACT_CLASS = "CameraView"
private val propsThatRequireSessionReconfiguration = arrayListOf("cameraId", "format", "fps", "hdr", "lowLightBoost")
}
}