Ole-Morten Duesund
07e10ac9c3
A dedicated camera app for tilt-shift photography with: - Real-time OpenGL ES 2.0 shader-based blur preview - Touch gesture controls (drag, rotate, pinch) for adjusting effect - CameraX integration for camera preview and high-res capture - EXIF metadata with GPS location support - MediaStore integration for saving to gallery - Jetpack Compose UI with haptic feedback Tech stack: Kotlin, CameraX, OpenGL ES 2.0, Jetpack Compose Min SDK: 26 (Android 8.0), Target SDK: 35 (Android 15) Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
173 lines
5.6 KiB
Kotlin
173 lines
5.6 KiB
Kotlin
package no.naiv.tiltshift.camera
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import android.content.Context
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import android.graphics.SurfaceTexture
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import android.util.Size
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import android.view.Surface
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import androidx.camera.core.Camera
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import androidx.camera.core.CameraSelector
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import androidx.camera.core.ImageCapture
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import androidx.camera.core.Preview
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import androidx.camera.core.SurfaceRequest
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import androidx.camera.core.resolutionselector.AspectRatioStrategy
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import androidx.camera.core.resolutionselector.ResolutionSelector
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import androidx.camera.lifecycle.ProcessCameraProvider
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import androidx.core.content.ContextCompat
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import androidx.lifecycle.LifecycleOwner
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import kotlinx.coroutines.flow.MutableStateFlow
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import kotlinx.coroutines.flow.StateFlow
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import kotlinx.coroutines.flow.asStateFlow
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import java.util.concurrent.Executor
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/**
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* Manages CameraX camera setup and controls.
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*/
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class CameraManager(private val context: Context) {
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private var cameraProvider: ProcessCameraProvider? = null
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private var camera: Camera? = null
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private var preview: Preview? = null
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var imageCapture: ImageCapture? = null
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private set
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val lensController = LensController()
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private val _zoomRatio = MutableStateFlow(1.0f)
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val zoomRatio: StateFlow<Float> = _zoomRatio.asStateFlow()
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private val _minZoomRatio = MutableStateFlow(1.0f)
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val minZoomRatio: StateFlow<Float> = _minZoomRatio.asStateFlow()
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private val _maxZoomRatio = MutableStateFlow(1.0f)
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val maxZoomRatio: StateFlow<Float> = _maxZoomRatio.asStateFlow()
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private var surfaceTextureProvider: (() -> SurfaceTexture?)? = null
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private var surfaceSize: Size = Size(1920, 1080)
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/**
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* Starts the camera with the given lifecycle owner.
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* The surfaceTextureProvider should return the SurfaceTexture from the GL renderer.
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*/
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fun startCamera(
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lifecycleOwner: LifecycleOwner,
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surfaceTextureProvider: () -> SurfaceTexture?
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) {
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this.surfaceTextureProvider = surfaceTextureProvider
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val cameraProviderFuture = ProcessCameraProvider.getInstance(context)
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cameraProviderFuture.addListener({
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cameraProvider = cameraProviderFuture.get()
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lensController.initialize(cameraProvider?.availableCameraInfos ?: emptyList())
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bindCameraUseCases(lifecycleOwner)
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}, ContextCompat.getMainExecutor(context))
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}
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private fun bindCameraUseCases(lifecycleOwner: LifecycleOwner) {
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val provider = cameraProvider ?: return
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// Unbind all use cases before rebinding
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provider.unbindAll()
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// Preview use case with resolution selector
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val resolutionSelector = ResolutionSelector.Builder()
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.setAspectRatioStrategy(AspectRatioStrategy.RATIO_16_9_FALLBACK_AUTO_STRATEGY)
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.build()
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preview = Preview.Builder()
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.setResolutionSelector(resolutionSelector)
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.build()
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// Image capture use case for high-res photos
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imageCapture = ImageCapture.Builder()
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.setCaptureMode(ImageCapture.CAPTURE_MODE_MAXIMIZE_QUALITY)
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.build()
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// Get camera selector from lens controller
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val cameraSelector = lensController.getCurrentLens()?.selector
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?: CameraSelector.DEFAULT_BACK_CAMERA
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try {
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// Bind use cases to camera
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camera = provider.bindToLifecycle(
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lifecycleOwner,
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cameraSelector,
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preview,
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imageCapture
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)
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// Update zoom info
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camera?.cameraInfo?.let { info ->
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_minZoomRatio.value = info.zoomState.value?.minZoomRatio ?: 1.0f
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_maxZoomRatio.value = info.zoomState.value?.maxZoomRatio ?: 1.0f
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_zoomRatio.value = info.zoomState.value?.zoomRatio ?: 1.0f
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}
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// Set up surface provider for preview
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preview?.setSurfaceProvider { request ->
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provideSurface(request)
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}
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} catch (e: Exception) {
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// Camera binding failed
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e.printStackTrace()
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}
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}
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private fun provideSurface(request: SurfaceRequest) {
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val surfaceTexture = surfaceTextureProvider?.invoke()
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if (surfaceTexture == null) {
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request.willNotProvideSurface()
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return
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}
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surfaceSize = request.resolution
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surfaceTexture.setDefaultBufferSize(surfaceSize.width, surfaceSize.height)
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val surface = Surface(surfaceTexture)
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request.provideSurface(surface, ContextCompat.getMainExecutor(context)) { result ->
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surface.release()
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}
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}
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/**
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* Sets the zoom ratio.
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*/
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fun setZoom(ratio: Float) {
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val clamped = ratio.coerceIn(_minZoomRatio.value, _maxZoomRatio.value)
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camera?.cameraControl?.setZoomRatio(clamped)
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_zoomRatio.value = clamped
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}
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/**
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* Sets zoom by linear percentage (0.0 to 1.0).
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*/
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fun setZoomLinear(percentage: Float) {
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camera?.cameraControl?.setLinearZoom(percentage.coerceIn(0f, 1f))
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}
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/**
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* Switches to a different lens.
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*/
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fun switchLens(lensId: String, lifecycleOwner: LifecycleOwner) {
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if (lensController.selectLens(lensId)) {
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bindCameraUseCases(lifecycleOwner)
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}
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}
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/**
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* Gets the executor for image capture callbacks.
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*/
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fun getExecutor(): Executor {
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return ContextCompat.getMainExecutor(context)
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}
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/**
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* Releases camera resources.
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*/
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fun release() {
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cameraProvider?.unbindAll()
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camera = null
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preview = null
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imageCapture = null
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}
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}
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