iOS — How to Integrate Camera APIs using SwiftUI

Nandani Sharma - Jul 22 - - Dev Community

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Introduction

Today, we’ll show you how to seamlessly connect SwiftUI with Camera APIs, while simplifying the process of creating camera apps. We’ve focused on making the implementation user-friendly, ensuring that developers, whether new or experienced, can utilize this guide seamlessly.

This blog will serve as a comprehensive guide, starting from attaching a camera preview to your UI, along with covering essential features like flash support, focus control, zoom and camera switch capabilities, and the key process of capturing and saving preview images to your device.

This guide may appear lengthy, but I’m sure you’ll find it a valuable resource that simplifies the process of crafting camera-enabled applications, especially with SwiftUI.

Get Started!

We will create a SwiftUI app to understand the basic camera APIs.

Here is the basic UI of the main camera screen which we are going to design throughout this blog,

Camera

I’ve taken the UI inspiration from this blog and tried to optimize the Camera API implementation to make it a more user-friendly and simplified experience with SwiftUI.

The source code is available on GitHub.

Camera Preview

First, add a new swift file with the name CameraPreview.swift and in that add a struct for the camera preview view.

Here is the code for the preview UI.

import SwiftUI
import AVFoundation // To access the camera related swift classes and methods

struct CameraPreview: UIViewRepresentable { // for attaching AVCaptureVideoPreviewLayer to SwiftUI View

  let session: AVCaptureSession

  // creates and configures a UIKit-based video preview view
  func makeUIView(context: Context) -> VideoPreviewView {
     let view = VideoPreviewView()
     view.backgroundColor = .black
     view.videoPreviewLayer.session = session
     view.videoPreviewLayer.videoGravity = .resizeAspect
     view.videoPreviewLayer.connection?.videoOrientation = .portrait
     return view
  }

  // updates the video preview view
  public func updateUIView(_ uiView: VideoPreviewView, context: Context) { }

  // UIKit-based view for displaying the camera preview
  class VideoPreviewView: UIView {

     // specifies the layer class used
     override class var layerClass: AnyClass {
        AVCaptureVideoPreviewLayer.self
     }

     // retrieves the AVCaptureVideoPreviewLayer for configuration
     var videoPreviewLayer: AVCaptureVideoPreviewLayer {
        return layer as! AVCaptureVideoPreviewLayer
     }
  }
}
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UIViewRepresentable acts as a bridge to a UIKit’s UIView.

AVCaptureSession is an object that manages real-time capture of audio and video. It represents the session used to capture the live camera feed.

The remaining code sets up a UIKit-based view in SwiftUI, specifically a video preview view with customized settings.

Add Camera Manager

The Manager will be the main component to connect to the iPhone’s camera and capture the amazing photos and many more things you have been waiting for.

I’ve tried to follow the coding standards with the MVVM architecture and state management.

Let’s start by creating a manager class named CameraManager.swift and replacing the default code with the following code:

// this class conforms to ObservableObject to make it easier to use with future Combine code
class CameraManager: ObservableObject {

 // Represents the camera's status
 enum Status {
    case configured
    case unconfigured
    case unauthorized
    case failed
 }

 // Observes changes in the camera's status
 @Published var status = Status.unconfigured

 // AVCaptureSession manages the camera settings and data flow between capture inputs and outputs.
 // It can connect one or more inputs to one or more outputs
 let session = AVCaptureSession()

 // AVCapturePhotoOutput for capturing photos
 let photoOutput = AVCapturePhotoOutput()

 // AVCaptureDeviceInput for handling video input from the camera
 // Basically provides a bridge from the device to the AVCaptureSession
 var videoDeviceInput: AVCaptureDeviceInput?

 // Serial queue to ensure thread safety when working with the camera
 private let sessionQueue = DispatchQueue(label: "com.demo.sessionQueue")

 // Method to configure the camera capture session
 func configureCaptureSession() {
    sessionQueue.async { [weak self] in
      guard let self, self.status == .unconfigured else { return }

      // Begin session configuration
      self.session.beginConfiguration()

      // Set session preset for high-quality photo capture
      self.session.sessionPreset = .photo

      // Add video input from the device's camera
      self.setupVideoInput()

      // Add the photo output configuration
      self.setupPhotoOutput()

      // Commit session configuration
      self.session.commitConfiguration()

      // Start capturing if everything is configured correctly
      self.startCapturing()
   }
 }

 // Method to set up video input from the camera
 private func setupVideoInput() {
   do {
      // Get the default wide-angle camera for video capture
      // AVCaptureDevice is a representation of the hardware device to use
      let camera = AVCaptureDevice.default(.builtInWideAngleCamera, for: .video, position: position)

      guard let camera else {
         print("CameraManager: Video device is unavailable.")
         status = .unconfigured
         session.commitConfiguration()
         return
      }

      // Create an AVCaptureDeviceInput from the camera
      let videoInput = try AVCaptureDeviceInput(device: camera)

      // Add video input to the session if possible
      if session.canAddInput(videoInput) {
         session.addInput(videoInput)
         videoDeviceInput = videoInput
         status = .configured
      } else {
         print("CameraManager: Couldn't add video device input to the session.")
         status = .unconfigured
         session.commitConfiguration()
         return
      }
   } catch {
      print("CameraManager: Couldn't create video device input: \(error)")
      status = .failed
      session.commitConfiguration()
      return
   }
 }

 // Method to configure the photo output settings
 private func setupPhotoOutput() {
   if session.canAddOutput(photoOutput) {
      // Add the photo output to the session
      session.addOutput(photoOutput)

      // Configure photo output settings
      photoOutput.isHighResolutionCaptureEnabled = true
      photoOutput.maxPhotoQualityPrioritization = .quality // work for ios 15.6 and the older versions
      //photoOutput.maxPhotoDimensions = .init(width: 4032, height: 3024) // for ios 16.0*

      // Update the status to indicate successful configuration
      status = .configured
   } else {
      print("CameraManager: Could not add photo output to the session")
      // Set an error status and return
      status = .failed
      session.commitConfiguration()
      return
   }
 }

 // Method to start capturing
 private func startCapturing() {
   if status == .configured {
      // Start running the capture session
      self.session.startRunning()
   } else if status == .unconfigured || status == .unauthorized {
      DispatchQueue.main.async {
        // Handle errors related to unconfigured or unauthorized states
        self.alertError = AlertError(title: "Camera Error", message: "Camera configuration failed. Either your device camera is not available or its missing permissions", primaryButtonTitle: "ok", secondaryButtonTitle: nil, primaryAction: nil, secondaryAction: nil)
        self.shouldShowAlertView = true
      }
   }
 }

 // Method to stop capturing
 func stopCapturing() {
   // Ensure thread safety using `sessionQueue`.
   sessionQueue.async { [weak self] in
      guard let self else { return }

      // Check if the capture session is currently running.
      if self.session.isRunning {
         // stops the capture session and any associated device inputs.
         self.session.stopRunning()
      }
   }
 }
}
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It may seem like there’s a lot to digest here 😅 but don’t worry, as you go through the code with those added comments, you will gain a clear understanding of each component step by step.

Add a View Model

To keep our code organized and clear, it’s advisable to create a separate view model. This view model will handle the core logic and provide the necessary data to our view for display.

We’ll eventually add some fairly intensive business logic around what will be displayed on the screen of the ContentViewto this view model class.

Requesting camera access permission

Privacy is one of Apple’s most touted pillars. Since Apple cares about users’ privacy, it only makes sense that the user needs to grant an app permission to use the camera.

So make sure to add a camera usage description in the project’s info.plist file as given in the below image.

xcode

Let’s create a new Swift file named CameraViewModel.swift. Then, replace the contents of that file with the following code:

class CameraViewModel: ObservableObject {

  // Reference to the CameraManager.
  @ObservedObject var cameraManager = CameraManager()

  // Published properties to trigger UI updates.
  @Published var isFlashOn = false
  @Published var showAlertError = false
  @Published var showSettingAlert = false
  @Published var isPermissionGranted: Bool = false

  var alertError: AlertError!

  // Reference to the AVCaptureSession.
  var session: AVCaptureSession = .init()

  // Cancellable storage for Combine subscribers.
  private var cancelables = Set<AnyCancellable>()

  init() {
    // Initialize the session with the cameraManager's session.
    session = cameraManager.session
  }

  deinit {
    // Deinitializer to stop capturing when the ViewModel is deallocated.
    cameraManager.stopCapturing()
  }

  // Setup Combine bindings for handling publisher's emit values
  func setupBindings() {
    cameraManager.$shouldShowAlertView.sink { [weak self] value in
      // Update alertError and showAlertError based on cameraManager's state.
      self?.alertError = self?.cameraManager.alertError
      self?.showAlertError = value
    }
    .store(in: &cancelables)
  }

  // Check for camera device permission.
  func checkForDevicePermission() {
    let videoStatus = AVCaptureDevice.authorizationStatus(for: AVMediaType.video)
    if videoStatus == .authorized {
       // If Permission granted, configure the camera.
       isPermissionGranted = true
       configureCamera()
    } else if videoStatus == .notDetermined {
       // In case the user has not been asked to grant access we request permission
       AVCaptureDevice.requestAccess(for: AVMediaType.video, completionHandler: { _ in })
    } else if videoStatus == .denied {
       // If Permission denied, show a setting alert.
       isPermissionGranted = false
       showSettingAlert = true
    }
  }

  // Configure the camera through the CameraManager to show a live camera preview.
  func configureCamera() {
     cameraManager.configureCaptureSession()
  }
}
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This view model will manage all the camera-related operations for SwiftUI views. For now,

It handles camera permissions, errors, and session configuration.
Combine bindings to update UI based on the manager’s state changes.
Ensures proper camera management and access.
Now, Let’s merge this data with the UI.

Design Camera Screen

We are going to design the screen like the default camera App. For that let’s update the code in the ContentView.swift file:

struct ContentView: View {

 @ObservedObject var viewModel = CameraViewModel()

 var body: some View {
   GeometryReader { geometry in
     ZStack {
        Color.black.edgesIgnoringSafeArea(.all)

        VStack(spacing: 0) {
           Button(action: {
              // Call method to on/off flash light
           }, label: {
              Image(systemName: viewModel.isFlashOn ? "bolt.fill" : "bolt.slash.fill")
                 .font(.system(size: 20, weight: .medium, design: .default))
           })
           .accentColor(viewModel.isFlashOn ? .yellow : .white)

           CameraPreview(session: viewModel.session)

           HStack {
              PhotoThumbnail()
              Spacer()
              CaptureButton { // Call the capture method }
              Spacer()
              CameraSwitchButton { // Call the camera switch method }
           }
           .padding(20)
        }
     }
     .alert(isPresented: $viewModel.showAlertError) {
        Alert(title: Text(viewModel.alertError.title), message: Text(viewModel.alertError.message), dismissButton: .default(Text(viewModel.alertError.primaryButtonTitle), action: {
           viewModel.alertError.primaryAction?()
        }))
     }
     .alert(isPresented: $viewModel.showSettingAlert) {
        Alert(title: Text("Warning"), message: Text("Application doesn't have all permissions to use camera and microphone, please change privacy settings."), dismissButton: .default(Text("Go to settings"), action: {
           self.openSettings()
        }))
     }
     .onAppear {
        viewModel.setupBindings()
        viewModel.checkForDevicePermission()
     }
   }
 }

 // use to open app's setting
 func openSettings() {
    let settingsUrl = URL(string: UIApplication.openSettingsURLString)
    if let url = settingsUrl {
       UIApplication.shared.open(url, options: [:])
    }
  }
}
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Let’s add the implementation of other views that we have used in the above design in the HStack.

struct PhotoThumbnail: View {

  var body: some View {
    Group {
       // if we have Image then we'll show image 
       Image(uiImage: image)
         .resizable()
         .aspectRatio(contentMode: .fill)
         .frame(width: 60, height: 60)
         .clipShape(RoundedRectangle(cornerRadius: 10, style: .continuous))

       // else just show black view
       Rectangle()
         .frame(width: 50, height: 50, alignment: .center)
         .foregroundColor(.black)
       }
    }
  }
}

struct CaptureButton: View {

  var action: () -> Void

  var body: some View {
     Button(action: action) {
        Circle()
          .foregroundColor(.white)
          .frame(width: 70, height: 70, alignment: .center)
          .overlay(
             Circle()
               .stroke(Color.black.opacity(0.8), lineWidth: 2)
               .frame(width: 59, height: 59, alignment: .center)
          )
     }
  }
}

struct CameraSwitchButton: View {

  var action: () -> Void

  var body: some View {
      Button(action: action) {
         Circle()
           .foregroundColor(Color.gray.opacity(0.2))
           .frame(width: 45, height: 45, alignment: .center)
           .overlay(
               Image(systemName: "camera.rotate.fill")
                  .foregroundColor(.white))
      }
   }
}
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With these, we are done with the core camera screen and you can test the app now.

We’ll now tackle the remaining functionalities step by step

Manage the Flashlight

Now, we are going to enable the flashlight functionality. We’ll start by adding a property to the CameraManager class to track the flashlight's status (on or off).

@Published private var flashMode: AVCaptureDevice.FlashMode = .off
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To toggle the flashlight mode, we’ll implement a method in the same class.

func toggleTorch(tourchIsOn: Bool) {
   // Access the default video capture device.
   guard let device = AVCaptureDevice.default(for: .video) else { return }
      // Check if the device has a torch (flashlight).
      if device.hasTorch {
        do {
            // Lock the device configuration for changes.
            try device.lockForConfiguration()

            // Set the flash mode based on the torchIsOn parameter.
            flashMode = tourchIsOn ? .on : .off

            // If torchIsOn is true, turn the torch on at full intensity.
            if tourchIsOn {
               try device.setTorchModeOn(level: 1.0)
            } else {
               // If torchIsOn is false, turn the torch off.
               device.torchMode = .off
            }
            // Unlock the device configuration.
            device.unlockForConfiguration()
        } catch {
        // Handle any errors during configuration changes.
        print("Failed to set torch mode: \(error).")
      }
   } else {
      print("Torch not available for this device.")
   }
}
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This method toggles the flashlight of the device’s camera based on the torchIsOn parameter.

Now, update the CameraViewModel to call this method for flashlight control.

func switchFlash() {
   isFlashOn.toggle()
   cameraManager.toggleTorch(tourchIsOn: isFlashOn)
}
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Let’s link this method to a button in our view:

Button(action: {
    viewModel.switchFlash()
}, label: {
    Image(systemName: viewModel.isFlashOn ? "bolt.fill" : "bolt.slash.fill")
       .font(.system(size: 20, weight: .medium, design: .default))
})
.accentColor(viewModel.isFlashOn ? .yellow : .white)
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Run the project to see it in action!

Camera Focus on Tap

Focus on Tap

This feature allows users to tap on the camera preview to specify the focus and exposure point.

We’ll start by updating the CameraManager class with a function called setFocusOnTap which configures the camera to focus and expose at the point where the user tapped.

func setFocusOnTap(devicePoint: CGPoint) {
   guard let cameraDevice = self.videoDeviceInput?.device else { return }
   do {
      try cameraDevice.lockForConfiguration()

      // Check if auto-focus is supported and set the focus mode accordingly.
      if cameraDevice.isFocusModeSupported(.autoFocus) {
         cameraDevice.focusMode = .autoFocus
         cameraDevice.focusPointOfInterest = devicePoint
      }

      // Set the exposure point and mode for auto-exposure.
      cameraDevice.exposurePointOfInterest = devicePoint
      cameraDevice.exposureMode = .autoExpose

      // Enable monitoring for changes in the subject area.
      cameraDevice.isSubjectAreaChangeMonitoringEnabled = true

      cameraDevice.unlockForConfiguration()
   } catch {
      print("Failed to configure focus: \(error)")
   }
}
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Let’s update the CameraViewModel class with a function to set the focus point based on user taps.

func setFocus(point: CGPoint) {
   // Delegate focus configuration to the CameraManager.
   cameraManager.setFocusOnTap(devicePoint: point)
}
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In the CameraPreview struct, we need to add a tap gesture recognizer. This allows users to tap the camera preview to specify the focus point.

class Coordinator: NSObject {

  var parent: CameraPreview

  init(_ parent: CameraPreview) {
     self.parent = parent
  }

  @objc func handleTapGesture(_ sender: UITapGestureRecognizer) {
     let location = sender.location(in: sender.view)
     parent.onTap(location)
  }
}
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Let’s implement the makeCoordinator function to create a coordinator instance,

func makeCoordinator() -> Coordinator {
    Coordinator(self)
}
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func makeCoordinator() -> Coordinator {
    Coordinator(self)
}
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Next, we modify the makeUIView function with gesture recognition onTap closure to incorporate tap gesture recognition.

var onTap: (CGPoint) -> Void // handle the user's tap actions

func makeUIView(context: Context) -> VideoPreviewView {
    let view = VideoPreviewView()
    view.backgroundColor = .black
    view.videoPreviewLayer.session = session
    view.videoPreviewLayer.videoGravity = .resizeAspect
    view.videoPreviewLayer.connection?.videoOrientation = .portrait

    // Add a tap gesture recognizer to the view
    let tapGesture = UITapGestureRecognizer(target: context.coordinator, action: #selector(context.coordinator.handleTapGesture(_:)))
    view.addGestureRecognizer(tapGesture)

    return view
}
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Now we’ll dive into updating the View layer to make use of the tap gesture support.

Let’s update the CameraPreview view with the given code for getting tap,

@State private var isFocused = false
@State private var focusLocation: CGPoint = .zero

CameraPreview(session: viewModel.session) { tapPoint in
    isFocused = true
    focusLocation = tapPoint
    viewModel.setFocus(point: tapPoint)

    // provide haptic feedback to enhance the user experience
    UIImpactFeedbackGenerator(style: .medium).impactOccurred()
}
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Provide visual feedback for focus preview
We introduce visual feedback for focus adjustments when users tap on the camera preview. This enhancement provides a clear and interactive way to specify the desired focus point.

@State private var isScaled = false // To scale the view

// Note: Add this view below the end of CameraPreview view
// by wrapping both in the Zstack to show focus view above the preview

// Show the FocusView when focus adjustments are in progress
if isFocused {
    FocusView(position: $focusLocation)
        .scaleEffect(isScaled ? 0.8 : 1)
        .onAppear {
            // Add a springy animation effect for visual appeal.
            withAnimation(.spring(response: 0.4, dampingFraction: 0.6, blendDuration: 0)) {
                self.isScaled = true
                // Return to the default state after 0.6 seconds for an elegant user experience.
                DispatchQueue.main.asyncAfter(deadline: .now() + 0.6) {
                    self.isFocused = false
                    self.isScaled = false
                }
            }
        }
}
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Here’s the FocusView implementation,

struct FocusView: View {

 @Binding var position: CGPoint

 var body: some View {
    Circle()
       .frame(width: 70, height: 70)
       .foregroundColor(.clear)
       .border(Color.yellow, width: 1.5)
       .position(x: position.x, y: position.y) // To show view at the specific place
    }
}
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Now you’re ready to run your app.

Camera FocusView

Zoom in/out with a pinch

To enable pinch-to-zoom functionality in our app, we need to make a few given updates.

Let’s start by making the necessary updates in the CameraManager class with a function called setZoomScale.

func setZoomScale(factor: CGFloat){
  // Ensure we have a valid video device input.
  guard let device = self.videoDeviceInput?.device else { return }
  do {
    try device.lockForConfiguration()

    // Ensure we stay within a valid zoom range
    device.videoZoomFactor = max(device.minAvailableVideoZoomFactor, max(factor, device.minAvailableVideoZoomFactor))

    device.unlockForConfiguration()
  } catch {
    print(error.localizedDescription)
  }
}
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Next, we’ll call this method from the ViewModel to control the zoom operations from view.

func zoom(with factor: CGFloat) {
    cameraManager.setZoomScale(factor: factor)
}
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Lastly, let’s update the ContentView to reflect the zoom adjustments based on pinch gestures.

// Store the current zoom factor
@State private var currentZoomFactor: CGFloat = 1.0

CameraPreview(session: viewModel.session) { tapPoint in
    isFocused = true
    focusLocation = tapPoint
    viewModel.setFocus(point: tapPoint)
    UIImpactFeedbackGenerator(style: .medium).impactOccurred()
}
.gesture(MagnificationGesture() // Apply a MagnificationGesture to the CameraPreview

.onChanged { value in
    // Calculate the change in zoom factor
    self.currentZoomFactor += value - 1.0

    // Ensure the zoom factor stays within a specific range
    self.currentZoomFactor = min(max(self.currentZoomFactor, 0.5), 10)

    // Call a method to update the zoom level
    self.viewModel.zoom(with: currentZoomFactor)
})
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With running the app, simply pinch to zoom in, and release to zoom out. This feature ensures users can creatively adjust their camera’s focus, enhancing the overall photography experience.

Camera Zoom

Switch Front and Back Camera

Switching between the front and back cameras is a handy feature for enhancing your custom camera app.

First, we update the CameraManager class by adding a new function called switchCamera to handle camera switching:

var position: AVCaptureDevice.Position = .back // to store current position

func switchCamera() {
   // Check if a current video input exists
   guard let videoDeviceInput else { return }

   // Remove the current video input
   session.removeInput(videoDeviceInput)

   // Set up the new video input
   setupVideoInput()
}
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In the ViewModel, add a switchCamera function to facilitate camera switching:

func switchCamera() {
    cameraManager.position = cameraManager.position == .back ? .front : .back
    cameraManager.switchCamera()
}
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Now, let’s update the CameraSwitchButton view’s button action,

CameraSwitchButton { viewModel.switchCamera() }
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With this, users can effortlessly switch between front and back cameras according to their preferences.

Test the app to ensure the feature works as expected.

Camera Switch

Capture and Save Image

In this section, we will walk through the implementation of the core functionality of the camera app.

Let’s begin with enhancing the CameraManager class to capture and manage images effectively:

Create a CameraDelegate Class

This class will conform to AVCapturePhotoCaptureDelegate and execute the necessary steps to process and save the image:

class CameraDelegate: NSObject, AVCapturePhotoCaptureDelegate {

   private let completion: (UIImage?) -> Void

   init(completion: @escaping (UIImage?) -> Void) {
      self.completion = completion
   }

   func photoOutput(_ output: AVCapturePhotoOutput, didFinishProcessingPhoto photo: AVCapturePhoto, error: Error?) {
      if let error {
         print("CameraManager: Error while capturing photo: \(error)")
         completion(nil)
         return
      }

      if let imageData = photo.fileDataRepresentation(), let capturedImage = UIImage(data: imageData) {
         saveImageToGallery(capturedImage)
         completion(capturedImage)
      } else {
         print("CameraManager: Image not fetched.")
      }
   }

   func saveImageToGallery(_ image: UIImage) {
      PHPhotoLibrary.shared().performChanges {
         PHAssetChangeRequest.creationRequestForAsset(from: image)
      } completionHandler: { success, error in
         if success {
           print("Image saved to gallery.")
         } else if let error {
           print("Error saving image to gallery: \(error)")
         }
      }
   }
}
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This class manages the image capture process and saves the images to the gallery.

Update the CameraManager Class

@Published var capturedImage: UIImage? = nil

private var cameraDelegate: CameraDelegate?

func captureImage() {
   sessionQueue.async { [weak self] in
      guard let self else { return }

      // Configure photo capture settings
      var photoSettings = AVCapturePhotoSettings()

      // Capture HEIC photos when supported
      if photoOutput.availablePhotoCodecTypes.contains(.hevc) {
         photoSettings = AVCapturePhotoSettings(format: [AVVideoCodecKey: AVVideoCodecType.hevc])
      }

      // Sets the flash mode for the capture
      if self.videoDeviceInput!.device.isFlashAvailable {
         photoSettings.flashMode = self.flashMode
      }

      photoSettings.isHighResolutionPhotoEnabled = true

      // Specify photo quality and preview format
      if let previewPhotoPixelFormatType = photoSettings.availablePreviewPhotoPixelFormatTypes.first {
         photoSettings.previewPhotoFormat = [kCVPixelBufferPixelFormatTypeKey as String: previewPhotoPixelFormatType]
      }

      photoSettings.photoQualityPrioritization = .quality

      if let videoConnection = photoOutput.connection(with: .video), videoConnection.isVideoOrientationSupported {
         videoConnection.videoOrientation = .portrait
      }

      cameraDelegate = CameraDelegate { [weak self] image in
         self?.capturedImage = image
      }

      if let cameraDelegate {
         // Capture the photo with delegate
         self.photoOutput.capturePhoto(with: photoSettings, delegate: cameraDelegate)
      }
   }
}
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This function sets up the capture settings for photos, and by using the AVCapturePhotoOutput, you can capture high-quality images.

ViewModel Updates

In the ViewModel, we’ll add a function to trigger image capture and handle permissions:

@Published var capturedImage: UIImage?

// add new closure for getting updated values form the manager class publishers
func setupBindings() {
   .
   .
   .
   cameraManager.$capturedImage.sink { [weak self] image in
      self?.capturedImage = image
   }.store(in: &cancelables)
}

// Call when the capture button tap
func captureImage() {
   requestGalleryPermission()
   let permission = checkGalleryPermissionStatus()
   if permission.rawValue != 2 {
     cameraManager.captureImage()
   }
}

// Ask for the permission for photo library access
func requestGalleryPermission() {
   PHPhotoLibrary.requestAuthorization { status in
     switch status {
     case .authorized:
        break
     case .denied:
        self.showSettingAlert = true
     default:
        break
     }
   }
}

func checkGalleryPermissionStatus() -> PHAuthorizationStatus {
   return PHPhotoLibrary.authorizationStatus()
}
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The captureImage function checks gallery permissions, and upon successful capture, we can handle the image according to our requirements.

We’ve requested permission to access the user’s photo library using the PHPhotoLibrary framework. Typically, this permission should be requested when the user interacts with the feature for the first time.

Requesting Gallery Permissions

Before capturing or saving images to the gallery, we need to request photo library permission. This ensures that our camera app complies with privacy and security best practices.

Make sure to add a photo library usage description in the project’s info.plist file as given in the below image,
camera1xcode2

View Changes

To represent the captured image and offer a button for image capture, make the following updates:

// Add action to the CaptureButton inside the HStack
CaptureButton { viewModel.captureImage() }

// Update the view for photo thumbnail view
struct PhotoThumbnail: View {

  @Binding var image: UIImage?

  var body: some View {
    Group {
       if let image {
          Image(uiImage: image)
            .resizable()
            .aspectRatio(contentMode: .fill)
            .frame(width: 60, height: 60)
            .clipShape(RoundedRectangle(cornerRadius: 10, style: .continuous))
       } else {
          Rectangle()
            .frame(width: 50, height: 50, alignment: .center)
            .foregroundColor(.black)
       }
    }
  }
}
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Let’s test the app to ensure smooth image capture and gallery-saving capabilities.

camera-1 capture

With that, We are done with our basic custom camera configurations.

Conclusion

Building a camera app might seem challenging initially. To make it easier, I’ve prepared a detailed but complete and beginner-friendly guide on crafting a basic SwiftUI camera app.

Our journey doesn’t end here. In our upcoming blog series, we’ll delve into advanced camera features. Imagine adjusting exposure, fine-tuning color temperature, switching lenses, altering resolutions, and many more.

To read the full version, please visit canopas blog.


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