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| | | #include "network.h" |
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| | | #include "detection_layer.h" |
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| | | #include "cost_layer.h" |
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| | | #include "utils.h" |
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| | | #include "parser.h" |
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| | | #include "box.h" |
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| | | |
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| | | #ifdef OPENCV |
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| | | #include "opencv2/highgui/highgui_c.h" |
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| | | #endif |
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| | | |
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| | | char *voc_class_names[] = {"aeroplane", "bicycle", "bird", "boat", "bottle", "bus", "car", "cat", "chair", "cow", "diningtable", "dog", "horse", "motorbike", "person", "pottedplant", "sheep", "sofa", "train", "tvmonitor"}; |
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| | | |
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| | | void draw_yolo(image im, float *box, int side, int objectness, char *label, float thresh) |
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| | | { |
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| | | int classes = 20; |
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| | | int elems = 4+classes+objectness; |
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| | | int j; |
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| | | int r, c; |
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| | | |
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| | | for(r = 0; r < side; ++r){ |
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| | | for(c = 0; c < side; ++c){ |
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| | | j = (r*side + c) * elems; |
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| | | float scale = 1; |
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| | | if(objectness) scale = 1 - box[j++]; |
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| | | int class = max_index(box+j, classes); |
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| | | if(scale * box[j+class] > thresh){ |
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| | | int width = sqrt(scale*box[j+class])*5 + 1; |
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| | | printf("%f %s\n", scale * box[j+class], voc_class_names[class]); |
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| | | float red = get_color(0,class,classes); |
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| | | float green = get_color(1,class,classes); |
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| | | float blue = get_color(2,class,classes); |
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| | | |
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| | | j += classes; |
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| | | float x = box[j+0]; |
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| | | float y = box[j+1]; |
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| | | x = (x+c)/side; |
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| | | y = (y+r)/side; |
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| | | float w = box[j+2]; //*maxwidth; |
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| | | float h = box[j+3]; //*maxheight; |
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| | | h = h*h; |
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| | | w = w*w; |
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| | | |
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| | | int left = (x-w/2)*im.w; |
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| | | int right = (x+w/2)*im.w; |
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| | | int top = (y-h/2)*im.h; |
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| | | int bot = (y+h/2)*im.h; |
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| | | draw_box_width(im, left, top, right, bot, width, red, green, blue); |
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| | | } |
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| | | } |
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| | | } |
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| | | show_image(im, label); |
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| | | } |
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| | | |
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| | | void train_yolo(char *cfgfile, char *weightfile) |
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| | | { |
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| | | char *train_images = "/home/pjreddie/data/voc/test/train.txt"; |
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| | | char *backup_directory = "/home/pjreddie/backup/"; |
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| | | srand(time(0)); |
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| | | data_seed = time(0); |
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| | | char *base = basecfg(cfgfile); |
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| | | printf("%s\n", base); |
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| | | float avg_loss = -1; |
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| | | network net = parse_network_cfg(cfgfile); |
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| | | if(weightfile){ |
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| | | load_weights(&net, weightfile); |
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| | | } |
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| | | detection_layer layer = get_network_detection_layer(net); |
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| | | printf("Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay); |
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| | | int imgs = 128; |
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| | | int i = net.seen/imgs; |
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| | | |
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| | | char **paths; |
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| | | list *plist = get_paths(train_images); |
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| | | int N = plist->size; |
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| | | paths = (char **)list_to_array(plist); |
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| | | |
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| | | if(i*imgs > N*80){ |
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| | | net.layers[net.n-1].joint = 1; |
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| | | net.layers[net.n-1].objectness = 0; |
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| | | } |
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| | | if(i*imgs > N*120){ |
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| | | net.layers[net.n-1].rescore = 1; |
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| | | } |
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| | | data train, buffer; |
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| | | |
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| | | int classes = layer.classes; |
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| | | int background = layer.objectness; |
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| | | int side = sqrt(get_detection_layer_locations(layer)); |
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| | | |
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| | | pthread_t load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer); |
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| | | clock_t time; |
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| | | while(i*imgs < N*130){ |
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| | | i += 1; |
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| | | time=clock(); |
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| | | pthread_join(load_thread, 0); |
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| | | train = buffer; |
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| | | load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer); |
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| | | |
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| | | printf("Loaded: %lf seconds\n", sec(clock()-time)); |
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| | | time=clock(); |
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| | | float loss = train_network(net, train); |
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| | | net.seen += imgs; |
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| | | if (avg_loss < 0) avg_loss = loss; |
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| | | avg_loss = avg_loss*.9 + loss*.1; |
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| | | |
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| | | printf("%d: %f, %f avg, %lf seconds, %d images, epoch: %f\n", i, loss, avg_loss, sec(clock()-time), i*imgs, ((float)i)*imgs/N); |
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| | | |
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| | | if((i-1)*imgs <= N && i*imgs > N){ |
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| | | fprintf(stderr, "First stage done\n"); |
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| | | net.learning_rate *= 10; |
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| | | char buff[256]; |
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| | | sprintf(buff, "%s/%s_first_stage.weights", backup_directory, base); |
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| | | save_weights(net, buff); |
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| | | } |
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| | | |
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| | | if((i-1)*imgs <= 80*N && i*imgs > N*80){ |
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| | | fprintf(stderr, "Second stage done.\n"); |
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| | | net.learning_rate *= .1; |
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| | | char buff[256]; |
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| | | sprintf(buff, "%s/%s_second_stage.weights", backup_directory, base); |
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| | | save_weights(net, buff); |
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| | | net.layers[net.n-1].joint = 1; |
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| | | net.layers[net.n-1].objectness = 0; |
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| | | background = 0; |
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| | | |
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| | | pthread_join(load_thread, 0); |
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| | | free_data(buffer); |
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| | | load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer); |
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| | | } |
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| | | |
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| | | if((i-1)*imgs <= 120*N && i*imgs > N*120){ |
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| | | fprintf(stderr, "Third stage done.\n"); |
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| | | char buff[256]; |
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| | | sprintf(buff, "%s/%s_final.weights", backup_directory, base); |
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| | | net.layers[net.n-1].rescore = 1; |
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| | | save_weights(net, buff); |
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| | | } |
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| | | |
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| | | if(i%1000==0){ |
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| | | char buff[256]; |
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| | | sprintf(buff, "%s/%s_%d.weights", backup_directory, base, i); |
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| | | save_weights(net, buff); |
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| | | } |
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| | | free_data(train); |
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| | | } |
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| | | char buff[256]; |
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| | | sprintf(buff, "%s/%s_rescore.weights", backup_directory, base); |
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| | | save_weights(net, buff); |
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| | | } |
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| | | |
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| | | void convert_yolo_detections(float *predictions, int classes, int objectness, int background, int num_boxes, int w, int h, float thresh, float **probs, box *boxes) |
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| | | { |
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| | | int i,j; |
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| | | int per_box = 4+classes+(background || objectness); |
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| | | for (i = 0; i < num_boxes*num_boxes; ++i){ |
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| | | float scale = 1; |
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| | | if(objectness) scale = 1-predictions[i*per_box]; |
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| | | int offset = i*per_box+(background||objectness); |
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| | | for(j = 0; j < classes; ++j){ |
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| | | float prob = scale*predictions[offset+j]; |
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| | | probs[i][j] = (prob > thresh) ? prob : 0; |
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| | | } |
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| | | int row = i / num_boxes; |
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| | | int col = i % num_boxes; |
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| | | offset += classes; |
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| | | boxes[i].x = (predictions[offset + 0] + col) / num_boxes * w; |
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| | | boxes[i].y = (predictions[offset + 1] + row) / num_boxes * h; |
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| | | boxes[i].w = pow(predictions[offset + 2], 2) * w; |
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| | | boxes[i].h = pow(predictions[offset + 3], 2) * h; |
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| | | } |
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| | | } |
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| | | |
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| | | void print_yolo_detections(FILE **fps, char *id, box *boxes, float **probs, int num_boxes, int classes, int w, int h) |
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| | | { |
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| | | int i, j; |
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| | | for(i = 0; i < num_boxes*num_boxes; ++i){ |
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| | | float xmin = boxes[i].x - boxes[i].w/2.; |
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| | | float xmax = boxes[i].x + boxes[i].w/2.; |
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| | | float ymin = boxes[i].y - boxes[i].h/2.; |
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| | | float ymax = boxes[i].y + boxes[i].h/2.; |
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| | | |
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| | | if (xmin < 0) xmin = 0; |
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| | | if (ymin < 0) ymin = 0; |
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| | | if (xmax > w) xmax = w; |
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| | | if (ymax > h) ymax = h; |
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| | | |
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| | | for(j = 0; j < classes; ++j){ |
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| | | if (probs[i][j]) fprintf(fps[j], "%s %f %f %f %f %f\n", id, probs[i][j], |
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| | | xmin, ymin, xmax, ymax); |
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| | | } |
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| | | } |
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| | | } |
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| | | |
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| | | void validate_yolo(char *cfgfile, char *weightfile) |
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| | | { |
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| | | network net = parse_network_cfg(cfgfile); |
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| | | if(weightfile){ |
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| | | load_weights(&net, weightfile); |
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| | | } |
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| | | set_batch_network(&net, 1); |
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| | | detection_layer layer = get_network_detection_layer(net); |
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| | | fprintf(stderr, "Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay); |
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| | | srand(time(0)); |
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| | | |
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| | | char *base = "results/comp4_det_test_"; |
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| | | list *plist = get_paths("/home/pjreddie/data/voc/test/2007_test.txt"); |
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| | | char **paths = (char **)list_to_array(plist); |
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| | | |
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| | | int classes = layer.classes; |
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| | | int objectness = layer.objectness; |
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| | | int background = layer.background; |
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| | | int num_boxes = sqrt(get_detection_layer_locations(layer)); |
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| | | |
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| | | int j; |
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| | | FILE **fps = calloc(classes, sizeof(FILE *)); |
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| | | for(j = 0; j < classes; ++j){ |
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| | | char buff[1024]; |
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| | | snprintf(buff, 1024, "%s%s.txt", base, voc_class_names[j]); |
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| | | fps[j] = fopen(buff, "w"); |
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| | | } |
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| | | box *boxes = calloc(num_boxes*num_boxes, sizeof(box)); |
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| | | float **probs = calloc(num_boxes*num_boxes, sizeof(float *)); |
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| | | for(j = 0; j < num_boxes*num_boxes; ++j) probs[j] = calloc(classes, sizeof(float *)); |
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| | | |
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| | | int m = plist->size; |
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| | | int i=0; |
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| | | int t; |
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| | | |
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| | | float thresh = .001; |
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| | | int nms = 1; |
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| | | float iou_thresh = .5; |
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| | | |
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| | | int nthreads = 8; |
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| | | image *val = calloc(nthreads, sizeof(image)); |
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| | | image *val_resized = calloc(nthreads, sizeof(image)); |
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| | | image *buf = calloc(nthreads, sizeof(image)); |
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| | | image *buf_resized = calloc(nthreads, sizeof(image)); |
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| | | pthread_t *thr = calloc(nthreads, sizeof(pthread_t)); |
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| | | for(t = 0; t < nthreads; ++t){ |
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| | | thr[t] = load_image_thread(paths[i+t], &buf[t], &buf_resized[t], net.w, net.h); |
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| | | } |
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| | | time_t start = time(0); |
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| | | for(i = nthreads; i < m+nthreads; i += nthreads){ |
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| | | fprintf(stderr, "%d\n", i); |
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| | | for(t = 0; t < nthreads && i+t-nthreads < m; ++t){ |
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| | | pthread_join(thr[t], 0); |
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| | | val[t] = buf[t]; |
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| | | val_resized[t] = buf_resized[t]; |
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| | | } |
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| | | for(t = 0; t < nthreads && i+t < m; ++t){ |
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| | | thr[t] = load_image_thread(paths[i+t], &buf[t], &buf_resized[t], net.w, net.h); |
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| | | } |
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| | | for(t = 0; t < nthreads && i+t-nthreads < m; ++t){ |
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| | | char *path = paths[i+t-nthreads]; |
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| | | char *id = basecfg(path); |
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| | | float *X = val_resized[t].data; |
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| | | float *predictions = network_predict(net, X); |
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| | | int w = val[t].w; |
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| | | int h = val[t].h; |
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| | | convert_yolo_detections(predictions, classes, objectness, background, num_boxes, w, h, thresh, probs, boxes); |
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| | | if (nms) do_nms(boxes, probs, num_boxes, classes, iou_thresh); |
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| | | print_yolo_detections(fps, id, boxes, probs, num_boxes, classes, w, h); |
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| | | free(id); |
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| | | free_image(val[t]); |
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| | | free_image(val_resized[t]); |
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| | | } |
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| | | } |
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| | | fprintf(stderr, "Total Detection Time: %f Seconds\n", (double)(time(0) - start)); |
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| | | } |
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| | | |
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| | | void test_yolo(char *cfgfile, char *weightfile, char *filename, float thresh) |
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| | | { |
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| | | |
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| | | network net = parse_network_cfg(cfgfile); |
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| | | if(weightfile){ |
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| | | load_weights(&net, weightfile); |
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| | | } |
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| | | detection_layer layer = get_network_detection_layer(net); |
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| | | set_batch_network(&net, 1); |
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| | | srand(2222222); |
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| | | clock_t time; |
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| | | char input[256]; |
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| | | while(1){ |
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| | | if(filename){ |
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| | | strncpy(input, filename, 256); |
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| | | } else { |
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| | | printf("Enter Image Path: "); |
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| | | fflush(stdout); |
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| | | fgets(input, 256, stdin); |
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| | | strtok(input, "\n"); |
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| | | } |
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| | | image im = load_image_color(input,0,0); |
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| | | image sized = resize_image(im, net.w, net.h); |
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| | | float *X = sized.data; |
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| | | time=clock(); |
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| | | float *predictions = network_predict(net, X); |
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| | | printf("%s: Predicted in %f seconds.\n", input, sec(clock()-time)); |
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| | | draw_yolo(im, predictions, 7, layer.objectness, "predictions", thresh); |
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| | | free_image(im); |
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| | | free_image(sized); |
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| | | #ifdef OPENCV |
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| | | cvWaitKey(0); |
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| | | cvDestroyAllWindows(); |
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| | | #endif |
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| | | if (filename) break; |
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| | | } |
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| | | } |
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| | | |
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| | | void run_yolo(int argc, char **argv) |
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| | | { |
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| | | float thresh = find_float_arg(argc, argv, "-thresh", .2); |
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| | | if(argc < 4){ |
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| | | fprintf(stderr, "usage: %s %s [train/test/valid] [cfg] [weights (optional)]\n", argv[0], argv[1]); |
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| | | return; |
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| | | } |
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| | | |
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| | | char *cfg = argv[3]; |
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| | | char *weights = (argc > 4) ? argv[4] : 0; |
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| | | char *filename = (argc > 5) ? argv[5]: 0; |
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| | | if(0==strcmp(argv[2], "test")) test_yolo(cfg, weights, filename, thresh); |
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| | | else if(0==strcmp(argv[2], "train")) train_yolo(cfg, weights); |
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| | | else if(0==strcmp(argv[2], "valid")) validate_yolo(cfg, weights); |
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| | | } |
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