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using Microsoft.ML.OnnxRuntime.Tensors;
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using SixLabors.ImageSharp;
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using ZeroLevel.NN.Models;
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namespace ZeroLevel.NN.Architectures.YoloV5
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{
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public class Yolov5Detector
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: SSDNN
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{
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private int INPUT_WIDTH = 640;
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private int INPUT_HEIGHT = 640;
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private int CROP_WIDTH = 1440;
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private int CROP_HEIGHT = 1440;
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public Yolov5Detector(string modelPath, int inputWidth = 640, int inputHeight = 640, bool gpu = false)
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: base(modelPath, gpu)
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{
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INPUT_HEIGHT = inputHeight;
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INPUT_WIDTH = inputWidth;
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}
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public List<YoloPrediction> Predict(Image image, float threshold)
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{
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var input = MakeInput(image,
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new ImagePreprocessorOptions(INPUT_WIDTH, INPUT_HEIGHT, PredictorChannelType.ChannelFirst)
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.ApplyNormilization()
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.ApplyAxeInversion());
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return Predict(input, threshold);
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}
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public List<YoloPrediction> PredictMultiply(Image image, bool withFullResizedImage, float threshold)
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{
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var input = MakeInputBatch(image,
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new ImagePreprocessorOptions(INPUT_WIDTH, INPUT_HEIGHT, PredictorChannelType.ChannelFirst)
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.ApplyNormilization()
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.ApplyAxeInversion()
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.UseCrop(CROP_WIDTH, CROP_HEIGHT, withFullResizedImage, true));
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return PredictMultiply(input, threshold);
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}
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public List<YoloPrediction> Predict(Tensor<float> input, float threshold)
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{
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var result = new List<YoloPrediction>();
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Extract(new Dictionary<string, Tensor<float>> { { "images", input } }, d =>
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{
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var output = d["output"];
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/*
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var output350 = d["350"];
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var output498 = d["498"];
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var output646 = d["646"];
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*/
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if (output != null && output != null)
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{
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var relative_koef_x = 1.0f / INPUT_WIDTH;
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var relative_koef_y = 1.0f / INPUT_HEIGHT;
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for (int box = 0; box < output.Dimensions[1]; box++)
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{
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var conf = output[0, box, 4]; // уверенность в наличии любого объекта
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if (conf > threshold)
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{
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var class_confidense = output[0, box, 5]; // уверенность в наличии объекта класса person
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if (class_confidense > threshold)
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{
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// Перевод относительно входа модели в относительные координаты
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var cx = output[0, box, 0] * relative_koef_x;
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var cy = output[0, box, 1] * relative_koef_y;
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var h = output[0, box, 2] * relative_koef_y;
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var w = output[0, box, 3] * relative_koef_x;
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result.Add(new YoloPrediction
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{
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Cx = cx,
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Cy = cy,
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W = w,
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H = h,
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Class = 0,
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Label = "0",
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Score = conf
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});
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}
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}
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}
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}
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});
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return result;
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}
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public List<YoloPrediction> PredictMultiply(ImagePredictionInput[] inputs, float threshold)
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{
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var result = new List<YoloPrediction>();
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var relative_koef_x = 1.0f / (float)INPUT_WIDTH;
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var relative_koef_y = 1.0f / (float)INPUT_HEIGHT;
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foreach (var input in inputs)
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{
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Extract(new Dictionary<string, Tensor<float>> { { "images", input.Tensor } }, d =>
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{
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var output = d["output"];
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/*
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var output350 = d["350"];
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var output498 = d["498"];
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var output646 = d["646"];
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*/
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if (output != null && output != null)
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{
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for (int index = 0; index < input.Count; index++)
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{
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var real_koef_x = (float)input.Offsets[index].Width / (float)INPUT_WIDTH;
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var real_koef_y = (float)input.Offsets[index].Height / (float)INPUT_HEIGHT;
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for (int box = 0; box < output.Dimensions[1]; box++)
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{
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var conf = output[index, box, 4]; // уверенность в наличии любого объекта
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if (conf > threshold)
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{
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var class_confidense = output[index, box, 5]; // уверенность в наличии объекта класса person
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if (class_confidense > threshold)
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{
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// Перевод относительно входа модели в относительные координаты
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var cx = output[index, box, 0] * real_koef_x;
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var cy = output[index, box, 1] * real_koef_y;
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var h = output[index, box, 2] * relative_koef_y;
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var w = output[index, box, 3] * relative_koef_x;
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// Перевод в координаты отнисительно текущего смещения
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cx += input.Offsets[index].X;
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cy += input.Offsets[index].Y;
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result.Add(new YoloPrediction
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{
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Cx = cx,
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Cy = cy,
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W = w,
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H = h,
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Class = 0,
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Label = "0",
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Score = conf
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});
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}
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}
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}
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}
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}
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});
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}
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return result;
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}
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}
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}
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