add all code

main
john-rocky 2 years ago
parent d2f8869823
commit 4e7529c83d

@ -16,6 +16,11 @@
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@ -102,7 +112,11 @@
734FA4E1298C59DD007627D9 /* AppDelegate.swift */,
734FA4E3298C59DD007627D9 /* SceneDelegate.swift */,
734FA4E5298C59DD007627D9 /* ViewController.swift */,
734FA59B29920691007627D9 /* Utils.swift */,
734FA513298C5BCE007627D9 /* CoreMLHelpers.swift */,
734FA4E7298C59DD007627D9 /* Main.storyboard */,
734FA511298C5A69007627D9 /* aotgan.mlmodel */,
734FA59D29920E08007627D9 /* realesrgangeneral512.mlmodel */,
734FA4EA298C59DF007627D9 /* Assets.xcassets */,
734FA4EC298C59DF007627D9 /* LaunchScreen.storyboard */,
734FA4EF298C59DF007627D9 /* Info.plist */,
@ -143,6 +157,9 @@
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@ -260,7 +280,11 @@
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//
// CoreMLHelpers.swift
// Inpating
//
// Created by on 2023/01/12.
//
import Accelerate
import CoreML
public protocol MultiArrayType: Comparable {
static var multiArrayDataType: MLMultiArrayDataType { get }
static func +(lhs: Self, rhs: Self) -> Self
static func -(lhs: Self, rhs: Self) -> Self
static func *(lhs: Self, rhs: Self) -> Self
static func /(lhs: Self, rhs: Self) -> Self
init(_: Int)
var toUInt8: UInt8 { get }
}
extension Double: MultiArrayType {
public static var multiArrayDataType: MLMultiArrayDataType { return .double }
public var toUInt8: UInt8 { return UInt8(self) }
}
extension Float: MultiArrayType {
public static var multiArrayDataType: MLMultiArrayDataType { return .float32 }
public var toUInt8: UInt8 { return UInt8(self) }
}
extension Int32: MultiArrayType {
public static var multiArrayDataType: MLMultiArrayDataType { return .int32 }
public var toUInt8: UInt8 { return UInt8(self) }
}
extension MLMultiArray {
/**
Converts the multi-array to a CGImage.
The multi-array must have at least 2 dimensions for a grayscale image, or
at least 3 dimensions for a color image.
The default expected shape is (height, width) or (channels, height, width).
However, you can change this using the `axes` parameter. For example, if
the array shape is (1, height, width, channels), use `axes: (3, 1, 2)`.
If `channel` is not nil, only converts that channel to a grayscale image.
This lets you visualize individual channels from a multi-array with more
than 4 channels.
Otherwise, converts all channels. In this case, the number of channels in
the multi-array must be 1 for grayscale, 3 for RGB, or 4 for RGBA.
Use the `min` and `max` parameters to put the values from the array into
the range [0, 255], if not already:
- `min`: should be the smallest value in the data; this will be mapped to 0.
- `max`: should be the largest value in the data; will be mapped to 255.
For example, if the range of the data in the multi-array is [-1, 1], use
`min: -1, max: 1`. If the range is already [0, 255], then use the defaults.
*/
public func cgImage(min: Double = 0,
max: Double = 255,
channel: Int? = nil,
axes: (Int, Int, Int)? = nil) -> CGImage? {
switch self.dataType {
case .double:
return _image(min: min, max: max, channel: channel, axes: axes)
case .float32:
return _image(min: Float(min), max: Float(max), channel: channel, axes: axes)
case .int32:
return _image(min: Int32(min), max: Int32(max), channel: channel, axes: axes)
@unknown default:
fatalError("Unsupported data type \(dataType.rawValue)")
}
}
/**
Helper function that allows us to use generics. The type of `min` and `max`
is also the dataType of the MLMultiArray.
*/
private func _image<T: MultiArrayType>(min: T,
max: T,
channel: Int?,
axes: (Int, Int, Int)?) -> CGImage? {
if let (b, w, h, c) = toRawBytes(min: min, max: max, channel: channel, axes: axes) {
if c == 1 {
return CGImage.fromByteArrayGray(b, width: w, height: h)
} else {
return CGImage.fromByteArrayRGBA(b, width: w, height: h)
}
}
return nil
}
/**
Converts the multi-array into an array of RGBA or grayscale pixels.
- Note: This is not particularly fast, but it is flexible. You can change
the loops to convert the multi-array whichever way you please.
- Note: The type of `min` and `max` must match the dataType of the
MLMultiArray object.
- Returns: tuple containing the RGBA bytes, the dimensions of the image,
and the number of channels in the image (1, 3, or 4).
*/
public func toRawBytes<T: MultiArrayType>(min: T,
max: T,
channel: Int? = nil,
axes: (Int, Int, Int)? = nil)
-> (bytes: [UInt8], width: Int, height: Int, channels: Int)? {
// MLMultiArray with unsupported shape?
if shape.count < 2 {
print("Cannot convert MLMultiArray of shape \(shape) to image")
return nil
}
// Figure out which dimensions to use for the channels, height, and width.
let channelAxis: Int
let heightAxis: Int
let widthAxis: Int
if let axes = axes {
channelAxis = axes.0
heightAxis = axes.1
widthAxis = axes.2
guard channelAxis >= 0 && channelAxis < shape.count &&
heightAxis >= 0 && heightAxis < shape.count &&
widthAxis >= 0 && widthAxis < shape.count else {
print("Invalid axes \(axes) for shape \(shape)")
return nil
}
} else if shape.count == 2 {
// Expected shape for grayscale is (height, width)
heightAxis = 0
widthAxis = 1
channelAxis = -1 // Never be used
} else {
// Expected shape for color is (channels, height, width)
channelAxis = 0
heightAxis = 1
widthAxis = 2
}
let height = self.shape[heightAxis].intValue
let width = self.shape[widthAxis].intValue
let yStride = self.strides[heightAxis].intValue
let xStride = self.strides[widthAxis].intValue
let channels: Int
let cStride: Int
let bytesPerPixel: Int
let channelOffset: Int
// MLMultiArray with just two dimensions is always grayscale. (We ignore
// the value of channelAxis here.)
if shape.count == 2 {
channels = 1
cStride = 0
bytesPerPixel = 1
channelOffset = 0
// MLMultiArray with more than two dimensions can be color or grayscale.
} else {
let channelDim = self.shape[channelAxis].intValue
if let channel = channel {
if channel < 0 || channel >= channelDim {
print("Channel must be -1, or between 0 and \(channelDim - 1)")
return nil
}
channels = 1
bytesPerPixel = 1
channelOffset = channel
} else if channelDim == 1 {
channels = 1
bytesPerPixel = 1
channelOffset = 0
} else {
if channelDim != 3 && channelDim != 4 {
print("Expected channel dimension to have 1, 3, or 4 channels, got \(channelDim)")
return nil
}
channels = channelDim
bytesPerPixel = 4
channelOffset = 0
}
cStride = self.strides[channelAxis].intValue
}
// Allocate storage for the RGBA or grayscale pixels. Set everything to
// 255 so that alpha channel is filled in if only 3 channels.
let count = height * width * bytesPerPixel
var pixels = [UInt8](repeating: 255, count: count)
// Grab the pointer to MLMultiArray's memory.
var ptr = UnsafeMutablePointer<T>(OpaquePointer(self.dataPointer))
ptr = ptr.advanced(by: channelOffset * cStride)
// Loop through all the pixels and all the channels and copy them over.
for c in 0..<channels {
for y in 0..<height {
for x in 0..<width {
let value = ptr[c*cStride + y*yStride + x*xStride]
let scaled = (value - min) * T(255) / (max - min)
let pixel = clamp(scaled, min: T(0), max: T(255)).toUInt8
pixels[(y*width + x)*bytesPerPixel + c] = pixel
}
}
}
return (pixels, width, height, channels)
}
}
/**
Fast conversion from MLMultiArray to CGImage using the vImage framework.
- Parameters:
- features: A multi-array with data type FLOAT32 and three dimensions
(3, height, width).
- min: The smallest value in the multi-array. This value, as well as any
smaller values, will be mapped to 0 in the output image.
- max: The largest value in the multi-array. This and any larger values
will be will be mapped to 255 in the output image.
- Returns: a new CGImage or nil if the conversion fails
*/
public func createCGImage(fromFloatArray features: MLMultiArray,
min: Float = 0,
max: Float = 255) -> CGImage? {
assert(features.dataType == .float32)
assert(features.shape.count == 3)
let ptr = UnsafeMutablePointer<Float>(OpaquePointer(features.dataPointer))
let height = features.shape[1].intValue
let width = features.shape[2].intValue
let channelStride = features.strides[0].intValue
let rowStride = features.strides[1].intValue
let srcRowBytes = rowStride * MemoryLayout<Float>.stride
var blueBuffer = vImage_Buffer(data: ptr,
height: vImagePixelCount(height),
width: vImagePixelCount(width),
rowBytes: srcRowBytes)
var greenBuffer = vImage_Buffer(data: ptr.advanced(by: channelStride),
height: vImagePixelCount(height),
width: vImagePixelCount(width),
rowBytes: srcRowBytes)
var redBuffer = vImage_Buffer(data: ptr.advanced(by: channelStride * 2),
height: vImagePixelCount(height),
width: vImagePixelCount(width),
rowBytes: srcRowBytes)
let destRowBytes = width * 4
var pixels = [UInt8](repeating: 0, count: height * destRowBytes)
var destBuffer = vImage_Buffer(data: &pixels,
height: vImagePixelCount(height),
width: vImagePixelCount(width),
rowBytes: destRowBytes)
let error = vImageConvert_PlanarFToBGRX8888(&blueBuffer,
&greenBuffer,
&redBuffer,
Pixel_8(255),
&destBuffer,
[max, max, max],
[min, min, min],
vImage_Flags(0))
if error == kvImageNoError {
return CGImage.fromByteArrayRGBA(pixels, width: width, height: height)
} else {
return nil
}
}
#if canImport(UIKit)
import UIKit
extension MLMultiArray {
public func image(min: Double = 0,
max: Double = 255,
channel: Int? = nil,
axes: (Int, Int, Int)? = nil) -> UIImage? {
let cgImg = cgImage(min: min, max: max, channel: channel, axes: axes)
return cgImg.map { UIImage(cgImage: $0) }
}
}
public func createUIImage(fromFloatArray features: MLMultiArray,
min: Float = 0,
max: Float = 255) -> UIImage? {
let cgImg = createCGImage(fromFloatArray: features, min: min, max: max)
return cgImg.map { UIImage(cgImage: $0) }
}
#endif
public func clamp<T: Comparable>(_ x: T, min: T, max: T) -> T {
if x < min { return min }
if x > max { return max }
return x
}
import CoreGraphics
extension CGImage {
/**
Converts the image into an array of RGBA bytes.
*/
@nonobjc public func toByteArrayRGBA() -> [UInt8] {
var bytes = [UInt8](repeating: 0, count: width * height * 4)
bytes.withUnsafeMutableBytes { ptr in
if let colorSpace = colorSpace,
let context = CGContext(
data: ptr.baseAddress,
width: width,
height: height,
bitsPerComponent: bitsPerComponent,
bytesPerRow: bytesPerRow,
space: colorSpace,
bitmapInfo: CGImageAlphaInfo.premultipliedLast.rawValue) {
let rect = CGRect(x: 0, y: 0, width: width, height: height)
context.draw(self, in: rect)
}
}
return bytes
}
/**
Creates a new CGImage from an array of RGBA bytes.
*/
@nonobjc public class func fromByteArrayRGBA(_ bytes: [UInt8],
width: Int,
height: Int) -> CGImage? {
return fromByteArray(bytes, width: width, height: height,
bytesPerRow: width * 4,
colorSpace: CGColorSpaceCreateDeviceRGB(),
alphaInfo: .premultipliedLast)
}
/**
Creates a new CGImage from an array of grayscale bytes.
*/
@nonobjc public class func fromByteArrayGray(_ bytes: [UInt8],
width: Int,
height: Int) -> CGImage? {
return fromByteArray(bytes, width: width, height: height,
bytesPerRow: width,
colorSpace: CGColorSpaceCreateDeviceGray(),
alphaInfo: .none)
}
@nonobjc class func fromByteArray(_ bytes: [UInt8],
width: Int,
height: Int,
bytesPerRow: Int,
colorSpace: CGColorSpace,
alphaInfo: CGImageAlphaInfo) -> CGImage? {
return bytes.withUnsafeBytes { ptr in
let context = CGContext(data: UnsafeMutableRawPointer(mutating: ptr.baseAddress!),
width: width,
height: height,
bitsPerComponent: 8,
bytesPerRow: bytesPerRow,
space: colorSpace,
bitmapInfo: alphaInfo.rawValue)
return context?.makeImage()
}
}
}
extension CGImage {
var frame: CGRect {
return CGRect(x: 0, y: 0, width: self.width, height: self.height)
}
func toBGR()->CGImage{
let ciImage = CIImage(cgImage: self)
let kernelStr: String = """
kernel vec4 swapRedAndGreenAmount(__sample s) {
return s.bgra;
}
"""
let ctx = CIContext(options: nil)
let swapKernel = CIColorKernel( source:
"kernel vec4 swapRedAndGreenAmount(__sample s) {" +
"return s.bgra;" +
"}"
)
let ciOutput = swapKernel?.apply(extent: (ciImage.extent), arguments: [ciImage as Any])
let cgOut:CGImage = ctx.createCGImage(ciOutput!, from: ciOutput!.extent)!
return cgOut
}
}
extension UIImage {
func mlMultiArray(scale preprocessScale:Double=1/255, rBias preprocessRBias:Double=0, gBias preprocessGBias:Double=0, bBias preprocessBBias:Double=0) -> MLMultiArray {
let imagePixel = self.getPixelRgb(scale: preprocessScale, rBias: preprocessRBias, gBias: preprocessGBias, bBias: preprocessBBias)
// let size = self.size
let imagePointer : UnsafePointer<Double> = UnsafePointer(imagePixel)
let mlArray = try! MLMultiArray(shape: [1,3, NSNumber(value: Float(512)), NSNumber(value: Float(512))], dataType: MLMultiArrayDataType.double)
mlArray.dataPointer.initializeMemory(as: Double.self, from: imagePointer, count: imagePixel.count)
return mlArray
}
func mlMultiArrayGrayScale(scale preprocessScale:Double=1/255,bias preprocessBias:Double=0) -> MLMultiArray {
let imagePixel = self.getPixelGrayScale(scale: preprocessScale, bias: preprocessBias)
// let size = self.size
let imagePointer : UnsafePointer<Double> = UnsafePointer(imagePixel)
let mlArray = try! MLMultiArray(shape: [1,1, NSNumber(value: Float(512)), NSNumber(value: Float(512))], dataType: MLMultiArrayDataType.double)
mlArray.dataPointer.initializeMemory(as: Double.self, from: imagePointer, count: imagePixel.count)
return mlArray
}
func mlMultiArrayComposite(outImage out:UIImage, inputImage input:UIImage, maskImage mask: UIImage, scale preprocessScale:Double=1/255, rBias preprocessRBias:Double=0, gBias preprocessGBias:Double=0, bBias preprocessBBias:Double=0) -> MLMultiArray {
let imagePixel = self.getMaskedPixelRgb(out: out, input: input, mask: mask)
// let size = self.size
let imagePointer : UnsafePointer<Double> = UnsafePointer(imagePixel)
let mlArray = try! MLMultiArray(shape: [1,3, NSNumber(value: Float(512)), NSNumber(value: Float(512))], dataType: MLMultiArrayDataType.double)
mlArray.dataPointer.initializeMemory(as: Double.self, from: imagePointer, count: imagePixel.count)
return mlArray
}
func getMaskedPixelRgb(out: UIImage,input: UIImage, mask:UIImage, scale preprocessScale:Double=1, rBias preprocessRBias:Double=0, gBias preprocessGBias:Double=0, bBias preprocessBBias:Double=0) -> [Double]
{
guard let outCGImage = out.cgImage?.resize(size: CGSize(width: 512, height: 512)) else {
return []
}
let outbytesPerRow = outCGImage.bytesPerRow
let outwidth = outCGImage.width
let outheight = outCGImage.height
let outbytesPerPixel = 4
let outpixelData = outCGImage.dataProvider!.data! as Data
guard let inputCGImage = input.cgImage?.resize(size: CGSize(width: 512, height: 512)) else {
return []
}
let inputpixelData = inputCGImage.dataProvider!.data! as Data
guard let maskCgImage = mask.cgImage?.resize(size: CGSize(width: 512, height: 512)) else {
return []
}
let maskBytesPerRow = maskCgImage.bytesPerRow
let maskBytesPerPixel = 4
let maskPixelData = maskCgImage.dataProvider!.data! as Data
var r_buf : [Double] = []
var g_buf : [Double] = []
var b_buf : [Double] = []
for j in 0..<outheight {
for i in 0..<outwidth {
let pixelInfo = outbytesPerRow * j + i * outbytesPerPixel
let maskPixelInfo = maskBytesPerRow * j + i * maskBytesPerPixel
let v = Double(maskPixelData[maskPixelInfo])
let r = Double(outpixelData[pixelInfo])
let g = Double(outpixelData[pixelInfo+1])
let b = Double(outpixelData[pixelInfo+2])
let bgr = Double(inputpixelData[pixelInfo+1])
let bgg = Double(inputpixelData[pixelInfo+2])
let bgb = Double(inputpixelData[pixelInfo+3])
if v > 0 {
r_buf.append(Double(r*preprocessScale)+preprocessRBias)
g_buf.append(Double(g*preprocessScale)+preprocessGBias)
b_buf.append(Double(b*preprocessScale)+preprocessBBias)
} else {
r_buf.append(Double(bgr*preprocessScale)+preprocessRBias)
g_buf.append(Double(bgg*preprocessScale)+preprocessGBias)
b_buf.append(Double(bgb*preprocessScale)+preprocessBBias)
}
}
}
return ((r_buf + g_buf) + b_buf)
}
func getPixelRgb(scale preprocessScale:Double=1/255, rBias preprocessRBias:Double=0, gBias preprocessGBias:Double=0, bBias preprocessBBias:Double=0) -> [Double]
{
guard let cgImage = self.cgImage?.resize(size: CGSize(width: 512, height: 512)) else {
return []
}
let bytesPerRow = cgImage.bytesPerRow
let width = cgImage.width
let height = cgImage.height
let bytesPerPixel = 4
let pixelData = cgImage.dataProvider!.data! as Data
var r_buf : [Double] = []
var g_buf : [Double] = []
var b_buf : [Double] = []
for j in 0..<height {
for i in 0..<width {
let pixelInfo = bytesPerRow * j + i * bytesPerPixel
let r = Double(pixelData[pixelInfo+1])
let g = Double(pixelData[pixelInfo+2])
let b = Double(pixelData[pixelInfo+3])
r_buf.append(Double(r*preprocessScale)+preprocessRBias)
g_buf.append(Double(g*preprocessScale)+preprocessGBias)
b_buf.append(Double(b*preprocessScale)+preprocessBBias)
}
}
return ((r_buf + g_buf) + b_buf)
}
func getPixelGrayScale(scale preprocessScale:Double=1/255, bias preprocessBias:Double=0) -> [Double]
{
guard let cgImage = self.cgImage?.resize(size: CGSize(width: 512, height: 512)) else {
return []
}
let bytesPerRow = cgImage.bytesPerRow
let width = cgImage.width
let height = cgImage.height
let bytesPerPixel = 4
let pixelData = cgImage.dataProvider!.data! as Data
var buf : [Double] = []
for j in 0..<height {
for i in 0..<width {
let pixelInfo = bytesPerRow * j + i * bytesPerPixel
let v = Double(pixelData[pixelInfo])
buf.append(Double(v*preprocessScale)+preprocessBias)
}
}
return buf
}
}
extension CGImage {
func resize(size:CGSize) -> CGImage? {
let width: Int = Int(size.width)
let height: Int = Int(size.height)
let bytesPerPixel = self.bitsPerPixel / self.bitsPerComponent
let destBytesPerRow = width * bytesPerPixel
guard let colorSpace = self.colorSpace else { return nil }
guard let context = CGContext(data: nil, width: width, height: height, bitsPerComponent: self.bitsPerComponent, bytesPerRow: destBytesPerRow, space: colorSpace, bitmapInfo: self.alphaInfo.rawValue) else { return nil }
context.interpolationQuality = .high
context.draw(self, in: CGRect(x: 0, y: 0, width: width, height: height))
return context.makeImage()
}
}

@ -0,0 +1,8 @@
//
// Utils.swift
// AOT-GAN-for-Inpainting-CoreML
//
// Created by on 2023/02/07.
//
import Foundation

@ -1,19 +1,269 @@
//
// ViewController.swift
// AOT-GAN-for-Inpainting-CoreML
//
// Created by on 2023/02/03.
//
import UIKit
import Vision
import CoreML
import Drawsana
import PhotosUI
class ViewController: UIViewController,PHPickerViewControllerDelegate, UIPickerViewDelegate {
var imageView:UIImageView!
let drawingView = DrawsanaView()
let penTool = PenTool()
let undoButton = UIButton()
let runButton = UIButton()
let selectPhotoButton = UIButton()
let superResolutionButton = UIButton()
let brushButton = UIButton()
var inputImage: UIImage?
let ciContext = CIContext()
lazy var maskBackGroundImage: UIImage = {
guard let image = UIImage(named: "maskBackGround") else { fatalError("Please set black image ") }
return image
}()
class ViewController: UIViewController {
lazy var model: MLModel? = {
do {
let config = MLModelConfiguration()
config.computeUnits = .cpuAndGPU
let model = try aotgan(configuration: config).model
return model
} catch let error {
print(error)
fatalError("model initialize error")
}
}()
lazy var srRequest: VNCoreMLRequest = {
do {
let config = MLModelConfiguration()
config.computeUnits = .cpuAndGPU
let model = try realesrgangeneral512(configuration: config).model
let vnModel = try VNCoreMLModel(for: model)
let request = VNCoreMLRequest(model: vnModel)
request.imageCropAndScaleOption = .scaleFill
return request
} catch let error {
print(error)
fatalError("model initialize error")
}
}()
override func viewDidLoad() {
super.viewDidLoad()
// Do any additional setup after loading the view.
setupView()
}
func inference(maskedImage inputImage:UIImage, maskImage mask:UIImage) {
guard let model = model else { fatalError("Model initialize error.") }
do {
let mask_1 = mask.mlMultiArrayGrayScale(scale: 1/255)
// input
let x_1 = inputImage.mlMultiArray(scale: 1/127.5,rBias: -1,gBias: -1, bBias: -1)
let inputTensor = MLMultiArray(concatenating: [x_1, mask_1],
axis: 1,
dataType: .float32)
let input = aotganInput(x_1: inputTensor)
// run
let start = Date()
let out = try model.prediction(from: input)
let timeElapsed = -start.timeIntervalSinceNow
print(timeElapsed)
let outArray = out.featureValue(for: "var_915")?.multiArrayValue
let outImage = outArray!.cgImage(min: -1,max: 1, axes: (1,2,3))
let uiOut = UIImage(cgImage: outImage!)
let originalSize = self.inputImage?.size
let comp = uiOut.mlMultiArrayComposite(outImage: uiOut, inputImage: inputImage, maskImage: mask).cgImage(axes: (1,2,3))?.resize(size: originalSize!)
let final = UIImage(cgImage: comp!)
self.inputImage = final
DispatchQueue.main.async {
self.resetDrawingView()
self.imageView.image = final
}
print("Done")
} catch let error {
print(error)
}
}
func resetDrawingView() {
if drawingView.drawing.shapes.count != 0 {
for _ in 0...drawingView.drawing.shapes.count-1 {
drawingView.operationStack.undo()
}
}
}
func setupView() {
imageView = UIImageView(frame: view.bounds)
imageView.contentMode = .scaleAspectFit
view.addSubview(imageView)
inputImage = UIImage(named: "input")
imageView.image = inputImage
drawingView.set(tool: penTool)
drawingView.userSettings.strokeWidth = 20
drawingView.userSettings.strokeColor = .white
drawingView.userSettings.fillColor = .black
drawingView.userSettings.fontSize = 24
drawingView.userSettings.fontName = "Marker Felt"
drawingView.frame = imageView.frame
view.addSubview(drawingView)
let buttonWidth = view.bounds.width*0.3
undoButton.frame = CGRect(x: view.bounds.width*0.025, y: 50, width: buttonWidth, height: 50)
superResolutionButton.frame = CGRect(x: view.bounds.maxX-view.bounds.width*0.025-buttonWidth, y: 50, width: buttonWidth, height: 50)
brushButton.frame = CGRect(x: undoButton.frame.maxX + view.bounds.width * 0.025, y: 50, width: buttonWidth, height: 50)
selectPhotoButton.frame = CGRect(x: view.bounds.width*0.1, y: view.bounds.maxY - 100, width: buttonWidth, height: 50)
runButton.frame = CGRect(x: view.bounds.maxX - view.bounds.width*0.1 - buttonWidth, y: view.bounds.maxY - 100, width: buttonWidth, height: 50)
undoButton.setTitle("undoDraw", for: .normal)
selectPhotoButton.setTitle("select Photo", for: .normal)
superResolutionButton.setTitle("SR", for: .normal)
brushButton.setTitle("brushWidth", for: .normal)
runButton.setTitle("run", for: .normal)
undoButton.backgroundColor = .gray
undoButton.setTitleColor(.white, for: .normal)
selectPhotoButton.backgroundColor = .gray
selectPhotoButton.setTitleColor(.white, for: .normal)
superResolutionButton.backgroundColor = .gray
superResolutionButton.setTitleColor(.white, for: .normal)
brushButton.backgroundColor = .gray
brushButton.setTitleColor(.white, for: .normal)
runButton.backgroundColor = .gray
runButton.setTitleColor(.white, for: .normal)
selectPhotoButton.addTarget(self, action: #selector(presentPhPicker), for: .touchUpInside)
superResolutionButton.addTarget(self, action: #selector(sr), for: .touchUpInside)
brushButton.addTarget(self, action: #selector(brushWidth), for: .touchUpInside)
undoButton.addTarget(self, action: #selector(undo), for: .touchUpInside)
runButton.addTarget(self, action: #selector(run), for: .touchUpInside)
view.addSubview(selectPhotoButton)
view.addSubview(superResolutionButton)
view.addSubview(undoButton)
view.addSubview(brushButton)
view.addSubview(runButton)
adjustDrawingViewSize()
}
@objc func brushWidth(){
let ac = UIAlertController(title: "SelectBrush", message: "", preferredStyle: .alert)
ac.addAction(UIAlertAction(title: "thin", style: .default,handler: { action in
self.drawingView.userSettings.strokeWidth = 5
}))
ac.addAction(UIAlertAction(title: "medium", style: .default,handler: { action in
self.drawingView.userSettings.strokeWidth = 20
}))
ac.addAction(UIAlertAction(title: "thin", style: .default,handler: { action in
self.drawingView.userSettings.strokeWidth = 40
}))
present(ac, animated: true)
}
@objc func undo() {
drawingView.operationStack.undo()
}
@objc func run() {
guard let overlapImage:UIImage = drawingView.render(over:inputImage),
let maskImage:UIImage = drawingView.render()
else { fatalError("Mask overlap error") }
inference(maskedImage: overlapImage, maskImage: maskImage)
}
@objc func presentPhPicker(){
var configuration = PHPickerConfiguration()
configuration.selectionLimit = 1
configuration.filter = .images
let picker = PHPickerViewController(configuration: configuration)
picker.delegate = self
present(picker, animated: true)
}
@objc func sr() {
let handler = VNImageRequestHandler(ciImage: CIImage(image: inputImage!)!)
do {
try handler.perform([srRequest])
guard let result = srRequest.results?.first as? VNPixelBufferObservation else {
return
}
let srCIImage = CIImage(cvPixelBuffer: result.pixelBuffer)
let resizedCGImage = ciContext.createCGImage(srCIImage, from: srCIImage.extent)?.resize(size: CGSize(width: inputImage!.size.width, height: inputImage!.size.height))
let srUIImage = UIImage(cgImage: resizedCGImage!)
inputImage = srUIImage
DispatchQueue.main.async {
self.imageView.image = srUIImage
self.adjustDrawingViewSize()
}
} catch let error {
print(error)
}
}
func picker(_ picker: PHPickerViewController, didFinishPicking results: [PHPickerResult]) {
picker.dismiss(animated: true)
guard let result = results.first else { return }
if result.itemProvider.canLoadObject(ofClass: UIImage.self) {
result.itemProvider.loadObject(ofClass: UIImage.self) { [weak self] image, error in
if let image = image as? UIImage, let safeSelf = self {
let correctOrientImage = safeSelf.getCorrectOrientationUIImage(uiImage: image)
safeSelf.inputImage = correctOrientImage
DispatchQueue.main.async {
safeSelf.resetDrawingView()
safeSelf.imageView.image = correctOrientImage
safeSelf.adjustDrawingViewSize()
}
}
}
}
}
func getCorrectOrientationUIImage(uiImage:UIImage) -> UIImage {
var newImage = UIImage()
let ciContext = CIContext()
switch uiImage.imageOrientation.rawValue {
case 1:
guard let orientedCIImage = CIImage(image: uiImage)?.oriented(CGImagePropertyOrientation.down),
let cgImage = ciContext.createCGImage(orientedCIImage, from: orientedCIImage.extent) else { return uiImage}
newImage = UIImage(cgImage: cgImage)
case 3:
guard let orientedCIImage = CIImage(image: uiImage)?.oriented(CGImagePropertyOrientation.right),
let cgImage = ciContext.createCGImage(orientedCIImage, from: orientedCIImage.extent) else { return uiImage}
newImage = UIImage(cgImage: cgImage)
default:
newImage = uiImage
}
return newImage
}
func adjustDrawingViewSize() {
let displayAspect = imageView.frame.height / imageView.frame.width
let imageSize = imageView.image!.size
let imageAspect = imageSize.height / imageSize.width
if imageAspect <= displayAspect {
// fit to width
let minX = imageView.frame.minX
let minY = imageView.center.y - (imageView.frame.width * imageAspect / 2)
let width = imageView.frame.width
let height = imageView.frame.width * imageAspect
drawingView.frame = CGRect(x: minX, y: minY, width: width, height: height)
} else {
// fit to height
let aspect = imageSize.width / imageSize.height
drawingView.frame = CGRect(x: imageView.center.x - (imageView.frame.height * aspect / 2), y: imageView.frame.minY, width: imageView.frame.height * aspect, height: imageView.frame.height)
}
}
}

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