3

I'm trying to recreate Apple's festival lights image in SwiftUI (screenshot from Apple India's website). Expected result:

Apple India Diwali logo

Here's what I've managed to achieve so far:

enter image description here

MY UNDERSTANDING SO FAR: Images are not Shapes, so we can't stroke their borders, but I also found that shadow() modifier places shadows on image borders just fine. So, I need a way to customize the shadow somehow and understand how it works.

WHAT I'VE TRIED SO FAR: Besides the code above, I tried to unsuccessfully convert a given SF Symbol to a Shape using Vision framework's contour detection, based on my understanding of this article: https://www.iosdevie.com/p/new-in-ios-14-vision-contour-detection

Can someone please guide me on how I would go about doing this, preferably using SF symbols only.

2 Answers 2

2

Looks like the Vision contour detection isn't a bad approach after all. I was just missing a few things, as helpfully pointed out by @DonMag. Here's my final answer using SwiftUI, in case someone's interested.

First, we create an InsettableShape:

struct MKSymbolShape: InsettableShape {
    var insetAmount = 0.0
    let systemName: String
    
    var trimmedImage: UIImage {
        let cfg = UIImage.SymbolConfiguration(pointSize: 256.0)
        // get the symbol
        guard let imgA = UIImage(systemName: systemName, withConfiguration: cfg)?.withTintColor(.black, renderingMode: .alwaysOriginal) else {
            fatalError("Could not load SF Symbol: \(systemName)!")
        }
        
        // we want to "strip" the bounding box empty space
        // get a cgRef from imgA
        guard let cgRef = imgA.cgImage else {
            fatalError("Could not get cgImage!")
        }
        // create imgB from the cgRef
        let imgB = UIImage(cgImage: cgRef, scale: imgA.scale, orientation: imgA.imageOrientation)
            .withTintColor(.black, renderingMode: .alwaysOriginal)
        
        // now render it on a white background
        let resultImage = UIGraphicsImageRenderer(size: imgB.size).image { ctx in
            UIColor.white.setFill()
            ctx.fill(CGRect(origin: .zero, size: imgB.size))
            imgB.draw(at: .zero)
        }
        
        return resultImage
    }
    
    func path(in rect: CGRect) -> Path {
        // cgPath returned from Vision will be in rect 0,0 1.0,1.0 coordinates
        //  so we want to scale the path to our view bounds
        
        let inputImage = self.trimmedImage
        guard let cgPath = detectVisionContours(from: inputImage) else { return Path() }
        let scW: CGFloat = (rect.width - CGFloat(insetAmount)) / cgPath.boundingBox.width
        let scH: CGFloat = (rect.height - CGFloat(insetAmount)) / cgPath.boundingBox.height
        
        // we need to invert the Y-coordinate space
        var transform = CGAffineTransform.identity
            .scaledBy(x: scW, y: -scH)
            .translatedBy(x: 0.0, y: -cgPath.boundingBox.height)
        
        if let imagePath = cgPath.copy(using: &transform) {
            return Path(imagePath)
        } else {
            return Path()
        }
    }
    
    func inset(by amount: CGFloat) -> some InsettableShape {
        var shape = self
        shape.insetAmount += amount
        return shape
    }
    
    func detectVisionContours(from sourceImage: UIImage) -> CGPath? {
        let inputImage = CIImage.init(cgImage: sourceImage.cgImage!)
        let contourRequest = VNDetectContoursRequest()
        contourRequest.revision = VNDetectContourRequestRevision1
        contourRequest.contrastAdjustment = 1.0
        contourRequest.maximumImageDimension = 512
        
        let requestHandler = VNImageRequestHandler(ciImage: inputImage, options: [:])
        try! requestHandler.perform([contourRequest])
        if let contoursObservation = contourRequest.results?.first {
            return contoursObservation.normalizedPath
        }
        
        return nil
    }
}

Then we create our main view:

struct PreviewView: View {
    var body: some View {
        ZStack {
            LinearGradient(colors: [.black, .purple], startPoint: .top, endPoint: .bottom)
                .edgesIgnoringSafeArea(.all)
            MKSymbolShape(systemName: "applelogo")
                .stroke(LinearGradient(colors: [.yellow, .orange, .pink, .red], startPoint: .top, endPoint: .bottom), style: StrokeStyle(lineWidth: 8, lineCap: .round, dash: [2.0, 21.0]))
                .aspectRatio(CGSize(width: 30, height: 36), contentMode: .fit)
                .padding()
        }
    }
}

Final look: Final look

1

We can use the Vision framework with VNDetectContourRequestRevision1 to get a cgPath:

func detectVisionContours(from sourceImage: UIImage) -> CGPath? {
    
    let inputImage = CIImage.init(cgImage: sourceImage.cgImage!)
    
    let contourRequest = VNDetectContoursRequest.init()
    contourRequest.revision = VNDetectContourRequestRevision1
    contourRequest.contrastAdjustment = 1.0
    contourRequest.maximumImageDimension = 512
    
    let requestHandler = VNImageRequestHandler.init(ciImage: inputImage, options: [:])
    try! requestHandler.perform([contourRequest])
    if let contoursObservation = contourRequest.results?.first {
        return contoursObservation.normalizedPath
    }
    
    return nil
}

The path will be based on a 0,0 1.0,1.0 coordinate space, so to use it we need to scale the path to our desired size. It also uses inverted Y-coordinates, so we'll need to flip it also:

    // cgPath returned from Vision will be in rect 0,0 1.0,1.0 coordinates
    //  so we want to scale the path to our view bounds
    let scW: CGFloat = targetRect.bounds.width / cgPth.boundingBox.width
    let scH: CGFloat = targetRect.bounds.height / cgPth.boundingBox.height
    
    // we need to invert the Y-coordinate space
    var transform = CGAffineTransform.identity
        .scaledBy(x: scW, y: -scH)
        .translatedBy(x: 0.0, y: -cgPth.boundingBox.height)
    
    return cgPth.copy(using: &transform)

Couple notes...

When using UIImage(systemName: "applelogo"), we get an image with "font" characteristics - namely, empty space. See this https://stackoverflow.com/a/71743787/6257435 and this https://stackoverflow.com/a/66293917/6257435 for some discussion.

So, we could use it directly, but it makes the path scaling and translation a bit complex.

So, instead of this "default":

enter image description here

we can use a little code to "trim" the space for a more usable image:

enter image description here

Then we can use the path from Vision as the path of a CAShapeLayer, along with these layer properties: .lineCap = .round / .lineWidth = 8 / .lineDashPattern = [2.0, 20.0] (for example) to get a "dotted line" stroke:

enter image description here

Then we can use that same path on a shape layer as a mask on a gradient layer:

enter image description here

and finally remove the image view so we see only the view with the masked gradient layer:

enter image description here

Here's example code to produce that:

import UIKit
import Vision

class ViewController: UIViewController {
    
    let myOutlineView = UIView()
    let myGradientView = UIView()
    let shapeLayer = CAShapeLayer()
    let gradientLayer = CAGradientLayer()

    let defaultImageView = UIImageView()
    let trimmedImageView = UIImageView()

    var defaultImage: UIImage!
    var trimmedImage: UIImage!
    
    var visionPath: CGPath!

    // an information label
    let infoLabel: UILabel = {
        let v = UILabel()
        v.backgroundColor = UIColor(white: 0.95, alpha: 1.0)
        v.textAlignment = .center
        v.numberOfLines = 0
        return v
    }()

    override func viewDidLoad() {
        super.viewDidLoad()
        
        view.backgroundColor = .systemBlue
        
        // get the system image at 240-points (so we can get a good path from Vision)
        //  experiment with different sizes if the path doesn't appear smooth
        let cfg = UIImage.SymbolConfiguration(pointSize: 240.0)
        
        // get "applelogo" symbol
        guard let imgA = UIImage(systemName: "applelogo", withConfiguration: cfg)?.withTintColor(.black, renderingMode: .alwaysOriginal) else {
            fatalError("Could not load SF Symbol: applelogo!")
        }
        // now render it on a white background
        self.defaultImage = UIGraphicsImageRenderer(size: imgA.size).image { ctx in
            UIColor.white.setFill()
            ctx.fill(CGRect(origin: .zero, size: imgA.size))
            imgA.draw(at: .zero)
        }

        // we want to "strip" the bounding box empty space
        // get a cgRef from imgA
        guard let cgRef = imgA.cgImage else {
            fatalError("Could not get cgImage!")
        }
        // create imgB from the cgRef
        let imgB = UIImage(cgImage: cgRef, scale: imgA.scale, orientation: imgA.imageOrientation)
            .withTintColor(.black, renderingMode: .alwaysOriginal)
        
        // now render it on a white background
        self.trimmedImage = UIGraphicsImageRenderer(size: imgB.size).image { ctx in
            UIColor.white.setFill()
            ctx.fill(CGRect(origin: .zero, size: imgB.size))
            imgB.draw(at: .zero)
        }

        defaultImageView.image = defaultImage
        defaultImageView.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(defaultImageView)

        trimmedImageView.image = trimmedImage
        trimmedImageView.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(trimmedImageView)
        
        myOutlineView.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(myOutlineView)
        
        myGradientView.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(myGradientView)
        
        // next step button
        let btn = UIButton()
        btn.setTitle("Next Step", for: [])
        btn.setTitleColor(.white, for: .normal)
        btn.setTitleColor(.lightGray, for: .highlighted)
        btn.backgroundColor = .systemRed
        btn.layer.cornerRadius = 8
        
        btn.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(btn)
        
        infoLabel.translatesAutoresizingMaskIntoConstraints = false
        view.addSubview(infoLabel)
        
        let g = view.safeAreaLayoutGuide
        NSLayoutConstraint.activate([
            
            // inset default image view 20-points on each side
            //  height proportional to the image
            //  near the top
            defaultImageView.topAnchor.constraint(equalTo: g.topAnchor, constant: 20.0),
            defaultImageView.leadingAnchor.constraint(equalTo: g.leadingAnchor, constant: 20.0),
            defaultImageView.trailingAnchor.constraint(equalTo: g.trailingAnchor, constant: -20.0),
            defaultImageView.heightAnchor.constraint(equalTo: defaultImageView.widthAnchor, multiplier: defaultImage.size.height / defaultImage.size.width),
            
            // inset trimmed image view 40-points on each side
            //  height proportional to the image
            //  centered vertically
            trimmedImageView.topAnchor.constraint(equalTo: g.topAnchor, constant: 40.0),
            trimmedImageView.leadingAnchor.constraint(equalTo: g.leadingAnchor, constant: 40.0),
            trimmedImageView.trailingAnchor.constraint(equalTo: g.trailingAnchor, constant: -40.0),
            trimmedImageView.heightAnchor.constraint(equalTo: trimmedImageView.widthAnchor, multiplier: self.trimmedImage.size.height / self.trimmedImage.size.width),
            
            // add outline view on top of trimmed image view
            myOutlineView.topAnchor.constraint(equalTo: trimmedImageView.topAnchor, constant: 0.0),
            myOutlineView.leadingAnchor.constraint(equalTo: trimmedImageView.leadingAnchor, constant: 0.0),
            myOutlineView.trailingAnchor.constraint(equalTo: trimmedImageView.trailingAnchor, constant: 0.0),
            myOutlineView.bottomAnchor.constraint(equalTo: trimmedImageView.bottomAnchor, constant: 0.0),
            
            // add gradient view on top of trimmed image view
            myGradientView.topAnchor.constraint(equalTo: trimmedImageView.topAnchor, constant: 0.0),
            myGradientView.leadingAnchor.constraint(equalTo: trimmedImageView.leadingAnchor, constant: 0.0),
            myGradientView.trailingAnchor.constraint(equalTo: trimmedImageView.trailingAnchor, constant: 0.0),
            myGradientView.bottomAnchor.constraint(equalTo: trimmedImageView.bottomAnchor, constant: 0.0),
            
            // button and info label below
            btn.topAnchor.constraint(equalTo: defaultImageView.bottomAnchor, constant: 20.0),
            btn.leadingAnchor.constraint(equalTo: trimmedImageView.leadingAnchor, constant: 0.0),
            btn.trailingAnchor.constraint(equalTo: trimmedImageView.trailingAnchor, constant: 0.0),

            infoLabel.topAnchor.constraint(equalTo: btn.bottomAnchor, constant: 20.0),
            infoLabel.leadingAnchor.constraint(equalTo: trimmedImageView.leadingAnchor, constant: 0.0),
            infoLabel.trailingAnchor.constraint(equalTo: trimmedImageView.trailingAnchor, constant: 0.0),
            infoLabel.heightAnchor.constraint(greaterThanOrEqualToConstant: 60.0),
            
        ])
        
        // setup the shape layer
        shapeLayer.strokeColor = UIColor.red.cgColor
        shapeLayer.fillColor = UIColor.clear.cgColor
        
        // this will give use round dots for the shape layer's stroke
        shapeLayer.lineCap = .round
        shapeLayer.lineWidth = 8
        shapeLayer.lineDashPattern = [2.0, 20.0]
        
        // setup the gradient layer
        let c1: UIColor = .init(red: 0.95, green: 0.73, blue: 0.32, alpha: 1.0)
        let c2: UIColor = .init(red: 0.95, green: 0.25, blue: 0.45, alpha: 1.0)
        gradientLayer.colors = [c1.cgColor, c2.cgColor]
        
        myOutlineView.layer.addSublayer(shapeLayer)
        myGradientView.layer.addSublayer(gradientLayer)

        btn.addTarget(self, action: #selector(nextStep), for: .touchUpInside)
    }
    
    override func viewDidAppear(_ animated: Bool) {
        super.viewDidAppear(animated)
    
        guard let pth = pathSetup()
        else {
            fatalError("Vision could not create path")
        }
        self.visionPath = pth
        
        shapeLayer.path = pth
        
        gradientLayer.frame = myGradientView.bounds.insetBy(dx: -8.0, dy: -8.0)
        let gradMask = CAShapeLayer()
        gradMask.strokeColor = UIColor.red.cgColor
        gradMask.fillColor = UIColor.clear.cgColor
        gradMask.lineCap = .round
        gradMask.lineWidth = 8
        gradMask.lineDashPattern = [2.0, 20.0]
        
        gradMask.path = pth
        gradMask.position.x += 8.0
        gradMask.position.y += 8.0
        gradientLayer.mask = gradMask
        
        nextStep()
    }
    
    var idx: Int = -1
    
    @objc func nextStep() {
        idx += 1
        switch idx % 5 {
        case 1:
            defaultImageView.isHidden = true
            trimmedImageView.isHidden = false
            infoLabel.text = "\"applelogo\" system image - with trimmed empty-space bounding-box."
        case 2:
            myOutlineView.isHidden = false
            shapeLayer.opacity = 1.0
            infoLabel.text = "Dotted outline shape using Vision detected path."
        case 3:
            myOutlineView.isHidden = true
            myGradientView.isHidden = false
            infoLabel.text = "Use Dotted outline shape as a gradient layer mask."
        case 4:
            trimmedImageView.isHidden = true
            view.backgroundColor = .black
            infoLabel.text = "View by itself with Dotted outline shape as a gradient layer mask."
        default:
            view.backgroundColor = .systemBlue
            defaultImageView.isHidden = false
            trimmedImageView.isHidden = true
            myOutlineView.isHidden = true
            myGradientView.isHidden = true
            shapeLayer.opacity = 0.0
            infoLabel.text = "Default \"applelogo\" system image - note empty-space bounding-box."
        }
    }

    func pathSetup() -> CGPath? {
        // get the cgPath from the image
        guard let cgPth = detectVisionContours(from: self.trimmedImage)
        else {
            print("Failed to get path!")
            return nil
        }
        
        // cgPath returned from Vision will be in rect 0,0 1.0,1.0 coordinates
        //  so we want to scale the path to our view bounds
        let scW: CGFloat = myOutlineView.bounds.width / cgPth.boundingBox.width
        let scH: CGFloat = myOutlineView.bounds.height / cgPth.boundingBox.height
        
        // we need to invert the Y-coordinate space
        var transform = CGAffineTransform.identity
            .scaledBy(x: scW, y: -scH)
            .translatedBy(x: 0.0, y: -cgPth.boundingBox.height)
        
        return cgPth.copy(using: &transform)
    }
    
    func detectVisionContours(from sourceImage: UIImage) -> CGPath? {
        
        let inputImage = CIImage.init(cgImage: sourceImage.cgImage!)
        
        let contourRequest = VNDetectContoursRequest.init()
        contourRequest.revision = VNDetectContourRequestRevision1
        contourRequest.contrastAdjustment = 1.0
        contourRequest.maximumImageDimension = 512
        
        let requestHandler = VNImageRequestHandler.init(ciImage: inputImage, options: [:])
        try! requestHandler.perform([contourRequest])
        if let contoursObservation = contourRequest.results?.first {
            return contoursObservation.normalizedPath
        }
        
        return nil
    }
}
2
  • trimming the image and UIImage quirks is what I was missing after all. I've posted my own answer below using SwiftUI, since that's what I originally set out to do. Thanks.
    – technusm1
    Oct 26, 2022 at 9:00
  • 1
    @technusm1 - whoops... yeah, I do very little with SwiftUI and fully intended to start my answer with "This needs to be adapted...". Glad it got you on your way :)
    – DonMag
    Oct 26, 2022 at 11:33

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.