Return to Revisions

You have to extract the pixel buffer of the image, at which point you can loop through, changing pixels as you see fit. At the end, create a new image from the buffer.

In Swift 3, this looks like:

func processPixels(in image: UIImage) -> UIImage? {
    guard let inputCGImage = image.cgImage else {
        print("unable to get cgImage")
        return nil
    }
    let colorSpace       = CGColorSpaceCreateDeviceRGB()
    let width            = inputCGImage.width
    let height           = inputCGImage.height
    let bytesPerPixel    = 4
    let bitsPerComponent = 8
    let bytesPerRow      = bytesPerPixel * width
    let bitmapInfo       = RGBA32.bitmapInfo
    
    guard let context = CGContext(data: nil, width: width, height: height, bitsPerComponent: bitsPerComponent, bytesPerRow: bytesPerRow, space: colorSpace, bitmapInfo: bitmapInfo) else {
        print("unable to create context")
        return nil
    }
    context.draw(inputCGImage, in: CGRect(x: 0, y: 0, width: width, height: height))
    
    guard let buffer = context.data else {
        print("unable to get context data")
        return nil
    }
    
    let pixelBuffer = buffer.bindMemory(to: RGBA32.self, capacity: width * height)
    
    for row in 0 ..< Int(height) {
        for column in 0 ..< Int(width) {
            let offset = row * width + column
            if pixelBuffer[offset] == .black {
                pixelBuffer[offset] = .red
            }
        }
    }
    
    let outputCGImage = context.makeImage()!
    let outputImage = UIImage(cgImage: outputCGImage, scale: image.scale, orientation: image.imageOrientation)
    
    return outputImage
}

struct RGBA32: Equatable {
    private var color: UInt32
    
    var redComponent: UInt8 {
        return UInt8((color >> 24) & 255)
    }
    
    var greenComponent: UInt8 {
        return UInt8((color >> 16) & 255)
    }
    
    var blueComponent: UInt8 {
        return UInt8((color >> 8) & 255)
    }
    
    var alphaComponent: UInt8 {
        return UInt8((color >> 0) & 255)
    }
    
    init(red: UInt8, green: UInt8, blue: UInt8, alpha: UInt8) {
        color = (UInt32(red) << 24) | (UInt32(green) << 16) | (UInt32(blue) << 8) | (UInt32(alpha) << 0)
    }
    
    static let red     = RGBA32(red: 255, green: 0,   blue: 0,   alpha: 255)
    static let green   = RGBA32(red: 0,   green: 255, blue: 0,   alpha: 255)
    static let blue    = RGBA32(red: 0,   green: 0,   blue: 255, alpha: 255)
    static let white   = RGBA32(red: 255, green: 255, blue: 255, alpha: 255)
    static let black   = RGBA32(red: 0,   green: 0,   blue: 0,   alpha: 255)
    static let magenta = RGBA32(red: 255, green: 0,   blue: 255, alpha: 255)
    static let yellow  = RGBA32(red: 255, green: 255, blue: 0,   alpha: 255)
    static let cyan    = RGBA32(red: 0,   green: 255, blue: 255, alpha: 255)
    
    static let bitmapInfo = CGImageAlphaInfo.premultipliedLast.rawValue | CGBitmapInfo.byteOrder32Little.rawValue
    
    static func ==(lhs: RGBA32, rhs: RGBA32) -> Bool {
        return lhs.color == rhs.color
    }
}

In Swift 2.x this looks like:

func processPixelsInImage(inputImage: UIImage) -> UIImage? {
    let inputCGImage     = inputImage.CGImage
    let colorSpace       = CGColorSpaceCreateDeviceRGB()
    let width            = CGImageGetWidth(inputCGImage)
    let height           = CGImageGetHeight(inputCGImage)
    let bytesPerPixel    = 4
    let bitsPerComponent = 8
    let bytesPerRow      = bytesPerPixel * width
    let bitmapInfo       = RGBA32.bitmapInfo
    
    guard let context = CGBitmapContextCreate(nil, width, height, bitsPerComponent, bytesPerRow, colorSpace, bitmapInfo) else {
        print("unable to create context")
        return nil
    }

    CGContextDrawImage(context, CGRectMake(0, 0, CGFloat(width), CGFloat(height)), inputCGImage)
    
    let pixelBuffer = UnsafeMutablePointer<RGBA32>(CGBitmapContextGetData(context))
    
    var currentPixel = pixelBuffer
    
    let black = RGBA32(red: 0, green: 0, blue: 0, alpha: 255)
    let red = RGBA32(red: 255, green: 0, blue: 0, alpha: 255)
    
    for _ in 0 ..< Int(height) {
        for _ in 0 ..< Int(width) {
            if currentPixel.memory == black {
                currentPixel.memory = red
            }
            currentPixel += 1
        }
    }
    
    let outputCGImage = CGBitmapContextCreateImage(context)
    let outputImage = UIImage(CGImage: outputCGImage!, scale: inputImage.scale, orientation: inputImage.imageOrientation)
    
    return outputImage
}

struct RGBA32: Equatable {
    var color: UInt32
    
    var red: UInt8 {
        return UInt8((color >> 24) & 255)
    }
    
    var green: UInt8 {
        return UInt8((color >> 16) & 255)
    }
    
    var blue: UInt8 {
        return UInt8((color >> 8) & 255)
    }
    
    var alpha: UInt8 {
        return UInt8((color >> 0) & 255)
    }
    
    init(red: UInt8, green: UInt8, blue: UInt8, alpha: UInt8) {
        color = (UInt32(red) << 24) | (UInt32(green) << 16) | (UInt32(blue) << 8) | (UInt32(alpha) << 0)
    }
    
    static let bitmapInfo = CGImageAlphaInfo.PremultipliedLast.rawValue | CGBitmapInfo.ByteOrder32Little.rawValue
}

func ==(lhs: RGBA32, rhs: RGBA32) -> Bool {
    return lhs.color == rhs.color
}