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Open Source Computer Vision Library
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240 lines
8.4 KiB
240 lines
8.4 KiB
// |
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// You can download a baseline ReID model and sample input from: |
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// https://github.com/ReID-Team/ReID_extra_testdata |
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// |
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// Authors of samples and Youtu ReID baseline: |
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// Xing Sun <winfredsun@tencent.com> |
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// Feng Zheng <zhengf@sustech.edu.cn> |
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// Xinyang Jiang <sevjiang@tencent.com> |
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// Fufu Yu <fufuyu@tencent.com> |
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// Enwei Zhang <miyozhang@tencent.com> |
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// |
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// Copyright (C) 2020-2021, Tencent. |
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// Copyright (C) 2020-2021, SUSTech. |
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// |
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#include <iostream> |
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#include <fstream> |
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#include <opencv2/imgproc.hpp> |
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#include <opencv2/highgui.hpp> |
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#include <opencv2/dnn.hpp> |
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using namespace cv; |
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using namespace cv::dnn; |
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const char* keys = |
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"{help h | | show help message}" |
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"{model m | | network model}" |
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"{query_list q | | list of query images}" |
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"{gallery_list g | | list of gallery images}" |
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"{batch_size | 32 | batch size of each inference}" |
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"{resize_h | 256 | resize input to specific height.}" |
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"{resize_w | 128 | resize input to specific width.}" |
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"{topk k | 5 | number of gallery images showed in visualization}" |
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"{output_dir | | path for visualization(it should be existed)}" |
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"{backend b | 0 | choose one of computation backends: " |
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"0: automatically (by default), " |
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"1: Halide language (http://halide-lang.org/), " |
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"2: Intel's Deep Learning Inference Engine (https://software.intel.com/openvino-toolkit), " |
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"3: OpenCV implementation ," |
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"5: CUDA }" |
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"{target t | 0 | choose one of target computation devices: " |
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"0: CPU target (by default), " |
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"1: OpenCL, " |
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"2: OpenCL fp16 (half-float precision), " |
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"6: CUDA ," |
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"7: CUDA fp16 (half-float preprocess) }"; |
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namespace cv{ |
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namespace reid{ |
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static Mat preprocess(const Mat& img) |
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{ |
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const double mean[3] = {0.485, 0.456, 0.406}; |
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const double std[3] = {0.229, 0.224, 0.225}; |
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Mat ret = Mat(img.rows, img.cols, CV_32FC3); |
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for (int y = 0; y < ret.rows; y ++) |
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{ |
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for (int x = 0; x < ret.cols; x++) |
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{ |
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for (int c = 0; c < 3; c++) |
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{ |
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ret.at<Vec3f>(y,x)[c] = (float)((img.at<Vec3b>(y,x)[c] / 255.0 - mean[2 - c]) / std[2 - c]); |
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} |
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} |
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} |
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return ret; |
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} |
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static std::vector<float> normalization(const std::vector<float>& feature) |
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{ |
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std::vector<float> ret; |
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float sum = 0.0; |
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for(int i = 0; i < (int)feature.size(); i++) |
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{ |
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sum += feature[i] * feature[i]; |
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} |
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sum = sqrt(sum); |
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for(int i = 0; i < (int)feature.size(); i++) |
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{ |
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ret.push_back(feature[i] / sum); |
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} |
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return ret; |
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} |
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static void extractFeatures(const std::vector<std::string>& imglist, Net* net, const int& batch_size, const int& resize_h, const int& resize_w, std::vector<std::vector<float>>& features) |
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{ |
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for(int st = 0; st < (int)imglist.size(); st += batch_size) |
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{ |
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std::vector<Mat> batch; |
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for(int delta = 0; delta < batch_size && st + delta < (int)imglist.size(); delta++) |
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{ |
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Mat img = imread(imglist[st + delta]); |
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batch.push_back(preprocess(img)); |
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} |
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Mat blob = dnn::blobFromImages(batch, 1.0, Size(resize_w, resize_h), Scalar(0.0,0.0,0.0), true, false, CV_32F); |
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net->setInput(blob); |
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Mat out = net->forward(); |
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for(int i = 0; i < (int)out.size().height; i++) |
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{ |
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std::vector<float> temp_feature; |
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for(int j = 0; j < (int)out.size().width; j++) |
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{ |
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temp_feature.push_back(out.at<float>(i,j)); |
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} |
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features.push_back(normalization(temp_feature)); |
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} |
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} |
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return ; |
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} |
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static void getNames(const std::string& ImageList, std::vector<std::string>& result) |
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{ |
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std::ifstream img_in(ImageList); |
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std::string img_name; |
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while(img_in >> img_name) |
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{ |
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result.push_back(img_name); |
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} |
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return ; |
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} |
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static float similarity(const std::vector<float>& feature1, const std::vector<float>& feature2) |
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{ |
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float result = 0.0; |
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for(int i = 0; i < (int)feature1.size(); i++) |
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{ |
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result += feature1[i] * feature2[i]; |
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} |
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return result; |
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} |
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static void getTopK(const std::vector<std::vector<float>>& queryFeatures, const std::vector<std::vector<float>>& galleryFeatures, const int& topk, std::vector<std::vector<int>>& result) |
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{ |
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for(int i = 0; i < (int)queryFeatures.size(); i++) |
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{ |
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std::vector<float> similarityList; |
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std::vector<int> index; |
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for(int j = 0; j < (int)galleryFeatures.size(); j++) |
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{ |
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similarityList.push_back(similarity(queryFeatures[i], galleryFeatures[j])); |
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index.push_back(j); |
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} |
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sort(index.begin(), index.end(), [&](int x,int y){return similarityList[x] > similarityList[y];}); |
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std::vector<int> topk_result; |
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for(int j = 0; j < min(topk, (int)index.size()); j++) |
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{ |
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topk_result.push_back(index[j]); |
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} |
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result.push_back(topk_result); |
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} |
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return ; |
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} |
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static void addBorder(const Mat& img, const Scalar& color, Mat& result) |
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{ |
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const int bordersize = 5; |
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copyMakeBorder(img, result, bordersize, bordersize, bordersize, bordersize, cv::BORDER_CONSTANT, color); |
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return ; |
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} |
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static void drawRankList(const std::string& queryName, const std::vector<std::string>& galleryImageNames, const std::vector<int>& topk_index, const int& resize_h, const int& resize_w, Mat& result) |
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{ |
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const Size outputSize = Size(resize_w, resize_h); |
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Mat q_img = imread(queryName), temp_img; |
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resize(q_img, temp_img, outputSize); |
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addBorder(temp_img, Scalar(0,0,0), q_img); |
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putText(q_img, "Query", Point(10, 30), FONT_HERSHEY_COMPLEX, 1.0, Scalar(0,255,0), 2); |
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std::vector<Mat> Images; |
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Images.push_back(q_img); |
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for(int i = 0; i < (int)topk_index.size(); i++) |
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{ |
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Mat g_img = imread(galleryImageNames[topk_index[i]]); |
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resize(g_img, temp_img, outputSize); |
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addBorder(temp_img, Scalar(255,255,255), g_img); |
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putText(g_img, "G" + std::to_string(i), Point(10, 30), FONT_HERSHEY_COMPLEX, 1.0, Scalar(0,255,0), 2); |
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Images.push_back(g_img); |
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} |
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hconcat(Images, result); |
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return ; |
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} |
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static void visualization(const std::vector<std::vector<int>>& topk, const std::vector<std::string>& queryImageNames, const std::vector<std::string>& galleryImageNames, const std::string& output_dir, const int& resize_h, const int& resize_w) |
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{ |
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for(int i = 0; i < (int)queryImageNames.size(); i++) |
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{ |
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Mat img; |
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drawRankList(queryImageNames[i], galleryImageNames, topk[i], resize_h, resize_w, img); |
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std::string output_path = output_dir + "/" + queryImageNames[i].substr(queryImageNames[i].rfind("/")+1); |
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imwrite(output_path, img); |
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} |
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return ; |
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} |
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}; |
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}; |
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int main(int argc, char** argv) |
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{ |
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// Parse command line arguments. |
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CommandLineParser parser(argc, argv, keys); |
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if (argc == 1 || parser.has("help")) |
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{ |
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parser.printMessage(); |
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return 0; |
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} |
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parser = CommandLineParser(argc, argv, keys); |
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parser.about("Use this script to run ReID networks using OpenCV."); |
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const std::string modelPath = parser.get<String>("model"); |
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const std::string queryImageList = parser.get<String>("query_list"); |
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const std::string galleryImageList = parser.get<String>("gallery_list"); |
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const int backend = parser.get<int>("backend"); |
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const int target = parser.get<int>("target"); |
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const int batch_size = parser.get<int>("batch_size"); |
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const int resize_h = parser.get<int>("resize_h"); |
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const int resize_w = parser.get<int>("resize_w"); |
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const int topk = parser.get<int>("topk"); |
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const std::string output_dir= parser.get<String>("output_dir"); |
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std::vector<std::string> queryImageNames; |
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reid::getNames(queryImageList, queryImageNames); |
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std::vector<std::string> galleryImageNames; |
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reid::getNames(galleryImageList, galleryImageNames); |
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dnn::Net net = dnn::readNet(modelPath); |
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net.setPreferableBackend(backend); |
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net.setPreferableTarget(target); |
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std::vector<std::vector<float>> queryFeatures; |
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reid::extractFeatures(queryImageNames, &net, batch_size, resize_h, resize_w, queryFeatures); |
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std::vector<std::vector<float>> galleryFeatures; |
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reid::extractFeatures(galleryImageNames, &net, batch_size, resize_h, resize_w, galleryFeatures); |
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std::vector<std::vector<int>> topkResult; |
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reid::getTopK(queryFeatures, galleryFeatures, topk, topkResult); |
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reid::visualization(topkResult, queryImageNames, galleryImageNames, output_dir, resize_h, resize_w); |
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return 0; |
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}
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