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using SixLabors.ImageSharp;
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using SixLabors.ImageSharp.PixelFormats;
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using SixLabors.ImageSharp.Processing;
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using ZeroLevel;
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using ZeroLevel.NN;
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using ZeroLevel.NN.Models;
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namespace Zero.NN.Services
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{
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public class FaceSeacrhService
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{
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private readonly IFaceDetector _detector;
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private readonly IEncoder _encoder;
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private readonly bool _useFaceAlign;
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public FaceSeacrhService(IFaceDetector detector, IEncoder encoder, bool useFaceAlign = true)
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{
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_useFaceAlign = useFaceAlign;
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_detector = detector;
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_encoder = encoder;
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}
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public static Image MakeEyesHorizontal(Image source, Face face)
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{
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// положение глаз для определения угла поворота
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var leftEye = face.Landmarks.LeftEye;
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var rightEye = face.Landmarks.RightEye;
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var dY = rightEye.Y - leftEye.Y;
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var dX = rightEye.X - leftEye.X;
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// угол на который нужно повернуть изображение чтбы выравнять глаза
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var ra = (float)Math.Atan2(dY, dX);
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// определить размеры и центр лица
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var minX = face.Landmarks.Left();
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var minY = face.Landmarks.Top();
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var maxX = face.Landmarks.Right();
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var maxY = face.Landmarks.Bottom();
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var centerFaceX = (maxX + minX) / 2.0f;
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var centerFaceY = (maxY + minY) / 2.0f;
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// определить описывающий лицо прямоугольник с центром в centerFaceX;centerFaceY
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var distanceX = face.X2 - face.X1;
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var distanceY = face.Y2 - face.Y1;
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var dx = (face.X1 + distanceX / 2.0f) - centerFaceX;
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var dy = (face.Y1 + distanceY / 2.0f) - centerFaceY;
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var x1 = face.X1 - dx;
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var y1 = face.Y1 - dy;
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var x2 = face.X2 - dx;
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var y2 = face.Y2 - dy;
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// определить квадрат описывающий прямоугольник с лицом повернутый на 45 градусов
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var radius = (float)Math.Sqrt((x2 - x1) * (x2 - x1) + (y2 - y1) * (y2 - y1)) / 2.0f;
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x1 = centerFaceX - radius;
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x2 = centerFaceX + radius;
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y1 = centerFaceY - radius;
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y2 = centerFaceY + radius;
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var cropDx = radius - distanceX / 2.0f;
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var cropDy = radius - distanceY / 2.0f;
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using (var fullCrop = ImagePreprocessor.Crop(source, x1, y1, x2, y2))
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{
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fullCrop.Mutate(img => img.Rotate((float)(-ra * (180.0f / Math.PI)), KnownResamplers.Bicubic));
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var crop = ImagePreprocessor.Crop(fullCrop, cropDx, cropDy, fullCrop.Width - cropDx, fullCrop.Height - cropDy);
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crop.Mutate(img => img.Resize(112, 112, KnownResamplers.Bicubic));
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return crop;
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}
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}
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private Image SpecialCrop(Image image, Face face)
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{
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var left = face.Landmarks.Left(); // 0.3
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var right = face.Landmarks.Right(); // 0.7
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var top = face.Landmarks.Top(); // 0.4
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var bottom = face.Landmarks.Bottom(); // 0.8
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var newWidth = (right - left) / 0.4f;
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var newHeight = (bottom - top) / 0.4f;
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// привести к квадрату !
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var cx1 = left - (newWidth * 0.3f);
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var cy1 = top - (newHeight * 0.4f);
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var cx2 = cx1 + newWidth;
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var cy2 = cy1 + newHeight;
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var clipX = new Func<float, float>(x =>
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{
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if (x < 0) return 0;
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if (x > image.Width) return image.Width;
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return x;
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});
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var clipY = new Func<float, float>(y =>
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{
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if (y < 0) return 0;
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if (y > image.Height) return image.Height;
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return y;
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});
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cx1 = clipX(cx1);
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cx2 = clipX(cx2);
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cy1 = clipY(cy1);
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cy2 = clipY(cy2);
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return ImagePreprocessor.Crop(image, cx1, cy1, cx2, cy2);
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}
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public IEnumerable<FaceEmbedding> GetEmbeddings(Image<Rgb24> image)
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{
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int width = image.Width;
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int heigth = image.Height;
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var faces = _detector.Predict(image);
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foreach (var face in faces)
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{
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Face.FixInScreen(face, width, heigth);
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float[] vector;
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if (_useFaceAlign)
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{
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int x = (int)face.X1;
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int y = (int)face.Y1;
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int w = (int)(face.X2 - face.X1);
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int h = (int)(face.Y2 - face.Y1);
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var radius = (float)Math.Sqrt(w * w + h * h) / 2f;
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var centerFaceX = (face.X2 + face.X1) / 2.0f;
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var centerFaceY = (face.Y2 + face.Y1) / 2.0f;
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var around_x1 = centerFaceX - radius;
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var around_x2 = centerFaceX + radius;
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var around_y1 = centerFaceY - radius;
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var around_y2 = centerFaceY + radius;
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try
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{
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using (var faceImage = ImagePreprocessor.Crop(image, around_x1, around_y1, around_x2, around_y2))
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{
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var matrix = Face.GetTransformMatrix(face);
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var builder = new AffineTransformBuilder();
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builder.AppendMatrix(matrix);
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faceImage.Mutate(x => x.Transform(builder, KnownResamplers.Bicubic));
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vector = _encoder.Predict(faceImage);
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/*var aligned_faces = detector.Predict(faceImage);
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if (aligned_faces != null && aligned_faces.Count == 1)
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{
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using (var ci = SpecialCrop(faceImage, aligned_faces[0]))
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{
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vector = encoder.Predict(faceImage);
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}
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}
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else
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{
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vector = encoder.Predict(faceImage);
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}*/
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}
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}
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catch (Exception ex)
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{
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Log.SystemError(ex, "[FaceSeacrhService.GetEmbeddings]");
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using (var faceImage = ImagePreprocessor.Crop(image, face.X1, face.Y1, face.X2, face.Y2))
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{
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vector = _encoder.Predict(faceImage);
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}
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}
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}
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else
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{
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using (var faceImage = ImagePreprocessor.Crop(image, face.X1, face.Y1, face.X2, face.Y2))
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{
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vector = _encoder.Predict(faceImage);
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}
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}
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yield return new FaceEmbedding
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{
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Face = face,
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Vector = vector
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};
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}
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}
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public IEnumerable<(FaceEmbedding, Image)> GetEmbeddingsAndCrop(Image<Rgb24> image)
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{
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int width = image.Width;
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int heigth = image.Height;
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var faces = _detector.Predict(image);
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foreach (var face in faces)
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{
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Face.FixInScreen(face, width, heigth);
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float[] vector;
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if (_useFaceAlign)
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{
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int x = (int)face.X1;
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int y = (int)face.Y1;
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int w = (int)(face.X2 - face.X1);
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int h = (int)(face.Y2 - face.Y1);
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var radius = (float)Math.Sqrt(w * w + h * h) / 2f;
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var centerFaceX = (face.X2 + face.X1) / 2.0f;
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var centerFaceY = (face.Y2 + face.Y1) / 2.0f;
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var around_x1 = centerFaceX - radius;
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var around_x2 = centerFaceX + radius;
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var around_y1 = centerFaceY - radius;
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var around_y2 = centerFaceY + radius;
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var faceImage = ImagePreprocessor.Crop(image, around_x1, around_y1, around_x2, around_y2);
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var matrix = Face.GetTransformMatrix(face);
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var builder = new AffineTransformBuilder();
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builder.AppendMatrix(matrix);
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faceImage.Mutate(x => x.Transform(builder, KnownResamplers.Bicubic));
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vector = _encoder.Predict(faceImage);
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yield return (new FaceEmbedding
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{
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Face = face,
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Vector = vector
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}, faceImage);
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}
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else
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{
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var faceImage = ImagePreprocessor.Crop(image, face.X1, face.Y1, face.X2, face.Y2);
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vector = _encoder.Predict(faceImage);
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yield return (new FaceEmbedding
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{
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Face = face,
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Vector = vector
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}, faceImage);
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}
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}
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}
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}
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}
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