mirror of
https://github.com/Swiftgram/Telegram-iOS.git
synced 2025-06-15 21:45:19 +00:00
295 lines
15 KiB
Swift
295 lines
15 KiB
Swift
import Foundation
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import UIKit
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import CoreImage
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import CoreGraphics
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import SwiftSignalKit
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import Display
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public enum QrCodeIcon {
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case none
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case cutout
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case proxy
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case custom(UIImage?)
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}
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private func floorToContextPixels(_ value: CGFloat, scale: CGFloat? = UIScreenScale) -> CGFloat {
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let scale = scale ?? UIScreenScale
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return floor(value * scale) / scale
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}
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private func roundToContextPixels(_ value: CGFloat, scale: CGFloat? = UIScreenScale) -> CGFloat {
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let scale = scale ?? UIScreenScale
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return round(value * scale) / scale
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}
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public func qrCodeCutout(size: Int, dimensions: CGSize, scale: CGFloat?) -> (Int, CGRect, CGFloat) {
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var cutoutSize = Int(round(CGFloat(size) * 0.297))
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if size == 39 {
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cutoutSize = 11
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} else if cutoutSize % 2 == 0 {
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cutoutSize += 1
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}
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cutoutSize = min(23, cutoutSize)
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let quadSize = floorToContextPixels(dimensions.width / CGFloat(size), scale: scale)
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let cutoutSide = quadSize * CGFloat(cutoutSize - 2)
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let cutoutRect = CGRect(x: floorToContextPixels((dimensions.width - cutoutSide) / 2.0, scale: scale), y: floorToContextPixels((dimensions.height - cutoutSide) / 2.0, scale: scale), width: cutoutSide, height: cutoutSide)
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return (cutoutSize, cutoutRect, quadSize)
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}
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public func qrCode(string: String, color: UIColor, backgroundColor: UIColor? = nil, icon: QrCodeIcon, ecl: String = "M") -> Signal<(Int, (TransformImageArguments) -> DrawingContext?), NoError> {
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return Signal<(Data, Int, Int), NoError> { subscriber in
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if let data = string.data(using: .isoLatin1, allowLossyConversion: false), let filter = CIFilter(name: "CIQRCodeGenerator") {
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filter.setValue(data, forKey: "inputMessage")
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filter.setValue(ecl, forKey: "inputCorrectionLevel")
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if let output = filter.outputImage {
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let size = Int(output.extent.width)
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let bytesPerRow = DeviceGraphicsContextSettings.shared.bytesPerRow(forWidth: Int(size))
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let length = bytesPerRow * size
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let bitmapInfo = CGBitmapInfo(rawValue: CGBitmapInfo.byteOrder32Little.rawValue | CGImageAlphaInfo.noneSkipFirst.rawValue)
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guard let bytes = malloc(length)?.assumingMemoryBound(to: UInt8.self) else {
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return EmptyDisposable
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}
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let data = Data(bytesNoCopy: bytes, count: length, deallocator: .free)
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guard let context = CGContext(data: bytes, width: size, height: size, bitsPerComponent: 8, bytesPerRow: bytesPerRow, space: deviceColorSpace, bitmapInfo: bitmapInfo.rawValue) else {
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return EmptyDisposable
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}
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let ciContext = CIContext(cgContext: context, options: nil)
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ciContext.draw(output, in: CGRect(x: 0, y: 0, width: size, height: size), from: output.extent)
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subscriber.putNext((data, size, bytesPerRow))
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}
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}
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subscriber.putCompletion()
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return EmptyDisposable
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}
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|> map { data, size, bytesPerRow in
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return (size, { arguments in
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guard let context = DrawingContext(size: arguments.drawingSize, scale: arguments.scale ?? 0.0, clear: true) else {
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return nil
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}
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let drawingRect = arguments.drawingRect
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let fittedSize = arguments.imageSize.aspectFilled(arguments.boundingSize).fitted(arguments.imageSize)
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let fittedRect = CGRect(origin: CGPoint(x: drawingRect.origin.x + (drawingRect.size.width - fittedSize.width) / 2.0, y: drawingRect.origin.y + (drawingRect.size.height - fittedSize.height) / 2.0), size: fittedSize)
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let (cutoutSize, clipRect, side) = qrCodeCutout(size: size, dimensions: fittedSize, scale: arguments.scale)
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let padding: CGFloat = roundToContextPixels((arguments.drawingSize.width - CGFloat(side * CGFloat(size))) / 2.0, scale: arguments.scale)
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let cutout: (Int, Int)?
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if case .none = icon {
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cutout = nil
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} else {
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let start = (size - cutoutSize) / 2
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cutout = (start, start + cutoutSize - 1)
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}
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func valueAt(x: Int, y: Int) -> Bool {
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if x >= 0 && x < size && y >= 0 && y < size {
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if let cutout = cutout, x > cutout.0 && x < cutout.1 && y > cutout.0 && y < cutout.1 {
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return false
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}
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return data.withUnsafeBytes { bytes -> Bool in
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if let value = bytes.baseAddress?.advanced(by: y * bytesPerRow + x * 4).assumingMemoryBound(to: UInt8.self).pointee {
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return value < 255
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} else {
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return false
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}
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}
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} else {
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return false
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}
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}
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let squareSize = CGSize(width: side, height: side)
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guard let tmpContext = DrawingContext(size: CGSize(width: squareSize.width * 4.0, height: squareSize.height), scale: arguments.scale ?? 0.0, clear: true) else {
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return nil
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}
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tmpContext.withContext { c in
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if let backgroundColor = backgroundColor {
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c.setFillColor(backgroundColor.cgColor)
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c.fill(CGRect(origin: CGPoint(), size: squareSize))
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}
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c.setFillColor(color.cgColor)
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let outerRadius = squareSize.width / 3.0
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var path = UIBezierPath(roundedRect: CGRect(origin: CGPoint(), size: squareSize), byRoundingCorners: .allCorners, cornerRadii: CGSize(width: outerRadius, height: outerRadius))
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c.addPath(path.cgPath)
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c.fillPath()
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c.fill(CGRect(origin: CGPoint(x: squareSize.width * 2.0, y: 0.0), size: squareSize))
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c.fill(CGRect(origin: CGPoint(x: squareSize.width, y: 0.0), size: squareSize))
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if let backgroundColor = backgroundColor {
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c.setFillColor(backgroundColor.cgColor)
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} else {
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c.setBlendMode(.clear)
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}
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let innerRadius = squareSize.width / 4.0
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path = UIBezierPath(roundedRect: CGRect(origin: CGPoint(x: squareSize.width, y: 0.0), size: squareSize), byRoundingCorners: .allCorners, cornerRadii: CGSize(width: innerRadius, height: innerRadius))
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c.addPath(path.cgPath)
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c.fillPath()
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c.fill(CGRect(origin: CGPoint(x: squareSize.width * 3.0, y: 0.0), size: squareSize))
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}
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let scaledSquareSize = Int(squareSize.width * tmpContext.scale)
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let scaledPadding = Int(padding * tmpContext.scale)
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let halfLen = scaledSquareSize * 4 / 2
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let blockLen = scaledSquareSize * 4 * 2
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func drawAt(x: Int, y: Int, fill: Bool, corners: UIRectCorner) {
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if !fill && corners.isEmpty {
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return
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}
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for i in 0 ..< scaledSquareSize {
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var dst = context.bytes.advanced(by: (scaledPadding + y * scaledSquareSize + i) * context.bytesPerRow + (scaledPadding + x * scaledSquareSize) * 4)
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let srcOffset = (fill ? 0 : scaledSquareSize * 4)
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let src = tmpContext.bytes.advanced(by: i * tmpContext.bytesPerRow + srcOffset)
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if corners.contains(i < scaledSquareSize / 2 ? .topLeft : .bottomLeft) {
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memcpy(dst, src, halfLen)
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} else {
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memcpy(dst, src + blockLen, halfLen)
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}
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dst += halfLen
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if corners.contains(i < scaledSquareSize / 2 ? .topRight : .bottomRight) {
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memcpy(dst, src + halfLen, halfLen)
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} else {
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memcpy(dst, src + blockLen + halfLen, halfLen)
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}
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}
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}
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context.withContext { c in
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if let backgroundColor = backgroundColor {
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c.setFillColor(backgroundColor.cgColor)
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c.fill(arguments.drawingRect)
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}
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var markerSize: Int = 0
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for i in 1 ..< size {
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if !valueAt(x: i, y: 1) {
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markerSize = i - 1
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break
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}
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}
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for y in 0 ..< size {
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for x in 0 ..< size {
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if (y < markerSize + 1 && (x < markerSize + 1 || x > size - markerSize - 2)) || (y > size - markerSize - 2 && x < markerSize + 1) {
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continue
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}
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var corners: UIRectCorner = []
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if valueAt(x: x, y: y) {
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corners = .allCorners
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if valueAt(x: x, y: y - 1) {
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corners.remove(.topLeft)
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corners.remove(.topRight)
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}
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if valueAt(x: x, y: y + 1) {
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corners.remove(.bottomLeft)
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corners.remove(.bottomRight)
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}
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if valueAt(x: x - 1, y: y) {
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corners.remove(.topLeft)
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corners.remove(.bottomLeft)
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}
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if valueAt(x: x + 1, y: y) {
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corners.remove(.topRight)
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corners.remove(.bottomRight)
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}
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drawAt(x: x, y: y, fill: true, corners: corners)
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} else {
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if valueAt(x: x - 1, y: y - 1) && valueAt(x: x - 1, y: y) && valueAt(x: x, y: y - 1) {
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corners.insert(.topLeft)
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}
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if valueAt(x: x + 1, y: y - 1) && valueAt(x: x + 1, y: y) && valueAt(x: x, y: y - 1) {
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corners.insert(.topRight)
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}
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if valueAt(x: x - 1, y: y + 1) && valueAt(x: x - 1, y: y) && valueAt(x: x, y: y + 1) {
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corners.insert(.bottomLeft)
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}
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if valueAt(x: x + 1, y: y + 1) && valueAt(x: x + 1, y: y) && valueAt(x: x, y: y + 1) {
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corners.insert(.bottomRight)
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}
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drawAt(x: x, y: y, fill: false, corners: corners)
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}
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}
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}
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c.translateBy(x: padding, y: padding)
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c.setLineWidth(squareSize.width)
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c.setStrokeColor(color.cgColor)
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c.setFillColor(color.cgColor)
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let markerSide = floorToContextPixels(CGFloat(markerSize - 1) * squareSize.width * 1.05, scale: arguments.scale)
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func drawMarker(x: CGFloat, y: CGFloat) {
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var path = UIBezierPath(roundedRect: CGRect(x: x + squareSize.width / 2.0, y: y + squareSize.width / 2.0, width: markerSide, height: markerSide), cornerRadius: markerSide / 3.5)
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c.addPath(path.cgPath)
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c.strokePath()
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let dotSide = markerSide - squareSize.width * 3.0
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path = UIBezierPath(roundedRect: CGRect(x: x + squareSize.width * 2.0, y: y + squareSize.height * 2.0, width: dotSide, height: dotSide), cornerRadius: dotSide / 3.5)
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c.addPath(path.cgPath)
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c.fillPath()
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}
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drawMarker(x: squareSize.width, y: squareSize.height)
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drawMarker(x: CGFloat(size - 2) * squareSize.width - markerSide, y: squareSize.height)
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drawMarker(x: squareSize.width, y: CGFloat(size - 2) * squareSize.height - markerSide)
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c.translateBy(x: -padding, y: -padding)
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switch icon {
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case .proxy:
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let iconScale = clipRect.size.width * 0.01111
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let iconSize = CGSize(width: 65.0 * iconScale, height: 79.0 * iconScale)
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let point = CGPoint(x: fittedRect.midX - iconSize.width / 2.0, y: fittedRect.midY - iconSize.height / 2.0)
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c.translateBy(x: point.x, y: point.y)
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c.scaleBy(x: iconScale, y: iconScale)
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c.setFillColor(color.cgColor)
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let _ = try? drawSvgPath(c, path: "M0.0,40 C0,20.3664202 20.1230605,0.0 32.5,0.0 C44.8769395,0.0 65,20.3664202 65,40 C65,47.217934 65,55.5505326 65,64.9977957 L32.5,79 L0.0,64.9977957 C0.0,55.0825772 0.0,46.7499786 0.0,40 Z")
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if let backgroundColor = backgroundColor {
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c.setFillColor(backgroundColor.cgColor)
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} else {
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c.setBlendMode(.clear)
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c.setFillColor(UIColor.clear.cgColor)
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}
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let _ = try? drawSvgPath(c, path: "M7.03608247,43.556701 L18.9836689,32.8350515 L32.5,39.871134 L45.8888139,32.8350515 L57.9639175,43.556701 L57.9639175,60.0 L32.5,71.0 L7.03608247,60.0 Z")
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c.setBlendMode(.normal)
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c.setFillColor(color.cgColor)
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let _ = try? drawSvgPath(c, path: "M24.1237113,50.5927835 L40.8762887,50.5927835 L40.8762887,60.9793814 L32.5,64.0928525 L24.1237113,60.9793814 Z")
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case let .custom(image):
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if let image = image {
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let fittedSize = image.size.aspectFitted(clipRect.size)
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let fittedRect = CGRect(origin: CGPoint(x: fittedRect.midX - fittedSize.width / 2.0, y: fittedRect.midY - fittedSize.height / 2.0), size: fittedSize)
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c.translateBy(x: fittedRect.midX, y: fittedRect.midY)
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c.scaleBy(x: 1.0, y: -1.0)
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c.translateBy(x: -fittedRect.midX, y: -fittedRect.midY)
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c.draw(image.cgImage!, in: fittedRect)
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}
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break
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default:
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break
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}
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}
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return context
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})
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}
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}
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