~speedprog/mtg/mtg_card_detector.git

			@@ -6,8 +6,7 @@


			char *class_names[] = {"aeroplane", "bicycle", "bird", "boat", "bottle", "bus", "car", "cat", "chair", "cow", "diningtable", "dog", "horse", "motorbike", "person", "pottedplant", "sheep", "sofa", "train", "tvmonitor"};
			char *inet_class_names[] = {"bg", "accordion", "airplane", "ant", "antelope", "apple", "armadillo", "artichoke", "axe", "baby bed", "backpack", "bagel", "balance beam", "banana", "band aid", "banjo", "baseball", "basketball", "bathing cap", "beaker", "bear", "bee", "bell pepper", "bench", "bicycle", "binder", "bird", "bookshelf", "bow tie", "bow", "bowl", "brassiere", "burrito", "bus", "butterfly", "camel", "can opener", "car", "cart", "cattle", "cello", "centipede", "chain saw", "chair", "chime", "cocktail shaker", "coffee maker", "computer keyboard", "computer mouse", "corkscrew", "cream", "croquet ball", "crutch", "cucumber", "cup or mug", "diaper", "digital clock", "dishwasher", "dog", "domestic cat", "dragonfly", "drum", "dumbbell", "electric fan", "elephant", "face powder", "fig", "filing cabinet", "flower pot", "flute", "fox", "french horn", "frog", "frying pan", "giant panda", "goldfish", "golf ball", "golfcart", "guacamole", "guitar", "hair dryer", "hair spray", "hamburger", "hammer", "hamster", "harmonica", "harp", "hat with a wide brim", "head cabbage", "helmet", "hippopotamus", "horizontal bar", "horse", "hotdog", "iPod", "isopod", "jellyfish", "koala bear", "ladle", "ladybug", "lamp", "laptop", "lemon", "lion", "lipstick", "lizard", "lobster", "maillot", "maraca", "microphone", "microwave", "milk can", "miniskirt", "monkey", "motorcycle", "mushroom", "nail", "neck brace", "oboe", "orange", "otter", "pencil box", "pencil sharpener", "perfume", "person", "piano", "pineapple", "ping-pong ball", "pitcher", "pizza", "plastic bag", "plate rack", "pomegranate", "popsicle", "porcupine", "power drill", "pretzel", "printer", "puck", "punching bag", "purse", "rabbit", "racket", "ray", "red panda", "refrigerator", "remote control", "rubber eraser", "rugby ball", "ruler", "salt or pepper shaker", "saxophone", "scorpion", "screwdriver", "seal", "sheep", "ski", "skunk", "snail", "snake", "snowmobile", "snowplow", "soap dispenser", "soccer ball", "sofa", "spatula", "squirrel", "starfish", "stethoscope", "stove", "strainer", "strawberry", "stretcher", "sunglasses", "swimming trunks", "swine", "syringe", "table", "tape player", "tennis ball", "tick", "tie", "tiger", "toaster", "traffic light", "train", "trombone", "trumpet", "turtle", "tv or monitor", "unicycle", "vacuum", "violin", "volleyball", "waffle iron", "washer", "water bottle", "watercraft", "whale", "wine bottle", "zebra"};
			#define AMNT 3

			void draw_detection(image im, float box, int side, char label)
			{
			int classes = 20;
			@@ -18,29 +17,22 @@
			for(r = 0; r < side; ++r){
			for(c = 0; c < side; ++c){
			j = (rside + c) elems;
			//printf("%d\n", j);
			//printf("Prob: %f\n", box[j]);
			int class = max_index(box+j, classes);
			if(box[j+class] > .05){
			//int z;
			//for(z = 0; z < classes; ++z) printf("%f %s\n", box[j+z], class_names[z]);
			if(box[j+class] > .2){
			printf("%f %s\n", box[j+class], class_names[class]);
			float red = get_color(0,class,classes);
			float green = get_color(1,class,classes);
			float blue = get_color(2,class,classes);

			//float maxheight = distance_from_edge(r, side);
			//float maxwidth = distance_from_edge(c, side);
			j += classes;
			float y = box[j+0];
			float x = box[j+1];
			float x = box[j+0];
			float y = box[j+1];
			x = (x+c)/side;
			y = (y+r)/side;
			float w = box[j+2]; //*maxwidth;
			float h = box[j+3]; //*maxheight;
			h = h*h;
			w = w*w;
			//printf("coords %f %f %f %f\n", x, y, w, h);

			int left = (x-w/2)*im.w;
			int right = (x+w/2)*im.w;
			@@ -52,184 +44,9 @@
			}
			}
			}
			//printf("Done\n");
			show_image(im, label);
			}

			void draw_localization(image im, float *box)
			{
			int classes = 20;
			int class;
			for(class = 0; class < classes; ++class){
			//int z;
			//for(z = 0; z < classes; ++z) printf("%f %s\n", box[j+z], class_names[z]);
			float red = get_color(0,class,classes);
			float green = get_color(1,class,classes);
			float blue = get_color(2,class,classes);

			int j = class*4;
			float x = box[j+0];
			float y = box[j+1];
			float w = box[j+2]; //*maxheight;
			float h = box[j+3]; //*maxwidth;
			//printf("coords %f %f %f %f\n", x, y, w, h);

			int left = (x-w/2)*im.w;
			int right = (x+w/2)*im.w;
			int top = (y-h/2)*im.h;
			int bot = (y+h/2)*im.h;
			draw_box(im, left, top, right, bot, red, green, blue);
			}
			//printf("Done\n");
			}

			void train_localization(char cfgfile, char weightfile)
			{
			srand(time(0));
			data_seed = time(0);
			char *base = basecfg(cfgfile);
			printf("%s\n", base);
			float avg_loss = -1;
			network net = parse_network_cfg(cfgfile);
			if(weightfile){
			load_weights(&net, weightfile);
			}
			printf("Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay);
			int imgs = 128;
			int classes = 20;
			int i = net.seen/imgs;
			data train, buffer;

			char **paths;
			list *plist;
			plist = get_paths("/home/pjreddie/data/voc/loc.2012val.txt");
			paths = (char **)list_to_array(plist);
			pthread_t load_thread = load_data_localization_thread(imgs, paths, plist->size, classes, net.w, net.h, &buffer);
			clock_t time;
			while(1){
			i += 1;
			time=clock();
			pthread_join(load_thread, 0);
			train = buffer;
			load_thread = load_data_localization_thread(imgs, paths, plist->size, classes, net.w, net.h, &buffer);

			printf("Loaded: %lf seconds\n", sec(clock()-time));
			time=clock();
			float loss = train_network(net, train);

			//TODO
			#ifdef GPU
			float *out = get_network_output_gpu(net);
			#else
			float *out = get_network_output(net);
			#endif
			image im = float_to_image(net.w, net.h, 3, train.X.vals[127]);
			image copy = copy_image(im);
			draw_localization(copy, &(out[63*80]));
			draw_localization(copy, train.y.vals[127]);
			show_image(copy, "box");
			cvWaitKey(0);
			free_image(copy);

			net.seen += imgs;
			if (avg_loss < 0) avg_loss = loss;
			avg_loss = avg_loss.9 + loss.1;
			printf("%d: %f, %f avg, %lf seconds, %d images\n", i, loss, avg_loss, sec(clock()-time), i*imgs);
			if(i%100==0){
			char buff[256];
			sprintf(buff, "/home/pjreddie/imagenet_backup/%s_%d.weights",base, i);
			save_weights(net, buff);
			}
			free_data(train);
			}
			}

			void train_detection_teststuff(char cfgfile, char weightfile)
			{
			srand(time(0));
			data_seed = time(0);
			int imgnet = 0;
			char *base = basecfg(cfgfile);
			printf("%s\n", base);
			float avg_loss = -1;
			network net = parse_network_cfg(cfgfile);
			if(weightfile){
			load_weights(&net, weightfile);
			}
			detection_layer layer = get_network_detection_layer(net);
			net.learning_rate = 0;
			net.decay = 0;
			printf("Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay);
			int imgs = 128;
			int i = net.seen/imgs;
			data train, buffer;

			int classes = layer.classes;
			int background = layer.background;
			int side = sqrt(get_detection_layer_locations(layer));

			char **paths;
			list *plist;
			if (imgnet){
			plist = get_paths("/home/pjreddie/data/imagenet/det.train.list");
			}else{
			plist = get_paths("/home/pjreddie/data/voc/val_2012.txt");
			//plist = get_paths("/home/pjreddie/data/voc/no_2007_test.txt");
			//plist = get_paths("/home/pjreddie/data/coco/trainval.txt");
			//plist = get_paths("/home/pjreddie/data/voc/all2007-2012.txt");
			}
			paths = (char **)list_to_array(plist);
			pthread_t load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer);
			clock_t time;
			cost_layer clayer = net.layers[net.n-1];
			while(1){
			i += 1;
			time=clock();
			pthread_join(load_thread, 0);
			train = buffer;
			load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer);

			/*
			image im = float_to_image(net.w, net.h, 3, train.X.vals[114]);
			image copy = copy_image(im);
			draw_detection(copy, train.y.vals[114], 7);
			free_image(copy);
			*/

			int z;
			int count = 0;
			float sx, sy, sw, sh;
			sx = sy = sw = sh = 0;
			for(z = 0; z < clayer.batch*clayer.inputs; z += 24){
			if(clayer.delta[z+20]){
			++count;
			sx += fabs(clayer.delta[z+20])*64;
			sy += fabs(clayer.delta[z+21])*64;
			sw += fabs(clayer.delta[z+22])*448;
			sh += fabs(clayer.delta[z+23])*448;
			}
			}
			printf("Avg error: %f, %f, %f x %f\n", sx/count, sy/count, sw/count, sh/count);

			printf("Loaded: %lf seconds\n", sec(clock()-time));
			time=clock();
			float loss = train_network(net, train);
			net.seen += imgs;
			if (avg_loss < 0) avg_loss = loss;
			avg_loss = avg_loss.9 + loss.1;
			printf("%d: %f, %f avg, %lf seconds, %d images\n", i, loss, avg_loss, sec(clock()-time), i*imgs);
			if(i == 100){
			//net.learning_rate *= 10;
			}
			if(i%100==0){
			char buff[256];
			sprintf(buff, "/home/pjreddie/imagenet_backup/%s_%d.weights",base, i);
			save_weights(net, buff);
			}
			free_data(train);
			}
			}

			void train_detection(char cfgfile, char weightfile)
			{
			srand(time(0));
			@@ -249,7 +66,7 @@
			data train, buffer;

			int classes = layer.classes;
			int background = layer.background;
			int background = (layer.background \|\| layer.objectness);
			int side = sqrt(get_detection_layer_locations(layer));

			char **paths;
			@@ -258,6 +75,8 @@
			plist = get_paths("/home/pjreddie/data/imagenet/det.train.list");
			}else{
			//plist = get_paths("/home/pjreddie/data/voc/no_2012_val.txt");
			//plist = get_paths("/home/pjreddie/data/voc/no_2007_test.txt");
			//plist = get_paths("/home/pjreddie/data/voc/val_2012.txt");
			plist = get_paths("/home/pjreddie/data/voc/no_2007_test.txt");
			//plist = get_paths("/home/pjreddie/data/coco/trainval.txt");
			//plist = get_paths("/home/pjreddie/data/voc/all2007-2012.txt");
			@@ -272,12 +91,13 @@
			train = buffer;
			load_thread = load_data_detection_thread(imgs, paths, plist->size, classes, net.w, net.h, side, side, background, &buffer);

			/*
			/*
			image im = float_to_image(net.w, net.h, 3, train.X.vals[114]);
			image copy = copy_image(im);
			draw_detection(copy, train.y.vals[114], 7);
			draw_detection(copy, train.y.vals[114], 7, "truth");
			cvWaitKey(0);
			free_image(copy);
			*/
			*/

			printf("Loaded: %lf seconds\n", sec(clock()-time));
			time=clock();
			@@ -298,7 +118,7 @@
			}
			}

			void predict_detections(network net, data d, float threshold, int offset, int classes, int nuisance, int background, int num_boxes, int per_box)
			void predict_detections(network net, data d, float threshold, int offset, int classes, int objectness, int background, int num_boxes, int per_box)
			{
			matrix pred = network_predict_data(net, d);
			int j, k, class;
			@@ -308,16 +128,16 @@
			int index = k/per_box;
			int row = index / num_boxes;
			int col = index % num_boxes;
			if (nuisance) scale = 1.-pred.vals[j][k];
			if (objectness) scale = 1.-pred.vals[j][k];
			for (class = 0; class < classes; ++class){
			int ci = k+classes+background+nuisance;
			int ci = k+classes+(background \|\| objectness);
			float x = (pred.vals[j][ci + 0] + col)/num_boxes;
			float y = (pred.vals[j][ci + 1] + row)/num_boxes;
			float w = pred.vals[j][ci + 2]; //* distance_from_edge(row, num_boxes);
			float h = pred.vals[j][ci + 3]; //* distance_from_edge(col, num_boxes);
			float w = pred.vals[j][ci + 2]; // distance_from_edge(row, num_boxes);
			float h = pred.vals[j][ci + 3]; // distance_from_edge(col, num_boxes);
			w = pow(w, 2);
			h = pow(h, 2);
			float prob = scale*pred.vals[j][k+class+background+nuisance];
			float prob = scale*pred.vals[j][k+class+(background \|\| objectness)];
			if(prob < threshold) continue;
			printf("%d %d %f %f %f %f %f\n", offset + j, class, prob, x, y, w, h);
			}
			@@ -336,19 +156,15 @@
			fprintf(stderr, "Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay);
			srand(time(0));

			list *plist = get_paths("/home/pjreddie/data/voc/test_2007.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/val_2012.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/test.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/val.expanded.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/train.txt");
			list *plist = get_paths("/home/pjreddie/data/voc/test.txt");
			char paths = (char )list_to_array(plist);

			int classes = layer.classes;
			int nuisance = layer.nuisance;
			int background = (layer.background && !nuisance);
			int objectness = layer.objectness;
			int background = layer.background;
			int num_boxes = sqrt(get_detection_layer_locations(layer));

			int per_box = 4+classes+background+nuisance;
			int per_box = 4+classes+(background \|\| objectness);
			int num_output = num_boxesnum_boxesper_box;

			int m = plist->size;
			@@ -360,15 +176,16 @@
			data *val = calloc(nthreads, sizeof(data));
			data *buf = calloc(nthreads, sizeof(data));
			pthread_t *thr = calloc(nthreads, sizeof(data));

			time_t start = time(0);

			for(t = 0; t < nthreads; ++t){
			int num = (i+1+t)m/splits - (i+t)m/splits;
			char *part = paths+((i+t)m/splits);
			thr[t] = load_data_thread(part, num, 0, 0, num_output, net.w, net.h, &(buf[t]));
			}

			clock_t time;
			for(i = nthreads; i <= splits; i += nthreads){
			time=clock();
			for(t = 0; t < nthreads; ++t){
			pthread_join(thr[t], 0);
			val[t] = buf[t];
			@@ -379,220 +196,13 @@
			thr[t] = load_data_thread(part, num, 0, 0, num_output, net.w, net.h, &(buf[t]));
			}

			fprintf(stderr, "%d: Loaded: %lf seconds\n", i, sec(clock()-time));
			fprintf(stderr, "%d\n", i);
			for(t = 0; t < nthreads; ++t){
			predict_detections(net, val[t], .01, (i-nthreads+t)*m/splits, classes, nuisance, background, num_boxes, per_box);
			predict_detections(net, val[t], .001, (i-nthreads+t)*m/splits, classes, objectness, background, num_boxes, per_box);
			free_data(val[t]);
			}
			time=clock();
			}
			}

			void do_mask(network net, data d, int offset, int classes, int nuisance, int background, int num_boxes, int per_box)
			{
			matrix pred = network_predict_data(net, d);
			int j, k, class;
			for(j = 0; j < pred.rows; ++j){
			printf("%d ", offset + j);
			for(k = 0; k < pred.cols; k += per_box){
			float scale = 1.;
			if (nuisance) scale = 1.-pred.vals[j][k];
			float max_prob = 0;
			for (class = 0; class < classes; ++class){
			float prob = scale*pred.vals[j][k+class+background+nuisance];
			if(prob > max_prob) max_prob = prob;
			}
			printf("%f ", max_prob);
			}
			printf("\n");
			}
			free_matrix(pred);
			}

			void mask_detection(char cfgfile, char weightfile)
			{
			network net = parse_network_cfg(cfgfile);
			if(weightfile){
			load_weights(&net, weightfile);
			}
			detection_layer layer = get_network_detection_layer(net);
			fprintf(stderr, "Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay);
			srand(time(0));

			list *plist = get_paths("/home/pjreddie/data/voc/test_2007.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/val_2012.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/test.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/val.expanded.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/train.txt");
			char paths = (char )list_to_array(plist);

			int classes = layer.classes;
			int nuisance = layer.nuisance;
			int background = (layer.background && !nuisance);
			int num_boxes = sqrt(get_detection_layer_locations(layer));

			int per_box = 4+classes+background+nuisance;
			int num_output = num_boxesnum_boxesper_box;

			int m = plist->size;
			int i = 0;
			int splits = 100;

			int nthreads = 4;
			int t;
			data *val = calloc(nthreads, sizeof(data));
			data *buf = calloc(nthreads, sizeof(data));
			pthread_t *thr = calloc(nthreads, sizeof(data));
			for(t = 0; t < nthreads; ++t){
			int num = (i+1+t)m/splits - (i+t)m/splits;
			char *part = paths+((i+t)m/splits);
			thr[t] = load_data_thread(part, num, 0, 0, num_output, net.w, net.h, &(buf[t]));
			}

			clock_t time;
			for(i = nthreads; i <= splits; i += nthreads){
			time=clock();
			for(t = 0; t < nthreads; ++t){
			pthread_join(thr[t], 0);
			val[t] = buf[t];
			}
			for(t = 0; t < nthreads && i < splits; ++t){
			int num = (i+1+t)m/splits - (i+t)m/splits;
			char *part = paths+((i+t)m/splits);
			thr[t] = load_data_thread(part, num, 0, 0, num_output, net.w, net.h, &(buf[t]));
			}

			fprintf(stderr, "%d: Loaded: %lf seconds\n", i, sec(clock()-time));
			for(t = 0; t < nthreads; ++t){
			do_mask(net, val[t], (i-nthreads+t)*m/splits, classes, nuisance, background, num_boxes, per_box);
			free_data(val[t]);
			}
			time=clock();
			}
			}

			void validate_detection_post(char cfgfile, char weightfile)
			{
			network net = parse_network_cfg(cfgfile);
			if(weightfile){
			load_weights(&net, weightfile);
			}
			set_batch_network(&net, 1);

			network post = parse_network_cfg("cfg/localize.cfg");
			load_weights(&post, "/home/pjreddie/imagenet_backup/localize_1000.weights");
			set_batch_network(&post, 1);

			detection_layer layer = get_network_detection_layer(net);
			fprintf(stderr, "Learning Rate: %g, Momentum: %g, Decay: %g\n", net.learning_rate, net.momentum, net.decay);
			srand(time(0));

			//list *plist = get_paths("/home/pjreddie/data/voc/test_2007.txt");
			list *plist = get_paths("/home/pjreddie/data/voc/val_2012.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/test.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/val.expanded.txt");
			//list *plist = get_paths("/home/pjreddie/data/voc/train.txt");
			char paths = (char )list_to_array(plist);

			int classes = layer.classes;
			int nuisance = layer.nuisance;
			int background = (layer.background && !nuisance);
			int num_boxes = sqrt(get_detection_layer_locations(layer));

			int per_box = 4+classes+background+nuisance;

			int m = plist->size;
			int i = 0;
			float threshold = .01;

			clock_t time = clock();
			for(i = 0; i < m; ++i){
			image im = load_image_color(paths[i], 0, 0);
			if(i % 100 == 0) {
			fprintf(stderr, "%d: Loaded: %lf seconds\n", i, sec(clock()-time));
			time = clock();
			}
			image sized = resize_image(im, net.w, net.h);
			float *out = network_predict(net, sized.data);
			free_image(sized);
			int k, class;
			//show_image(im, "original");
			int num_output = num_boxesnum_boxesper_box;
			//image cp1 = copy_image(im);
			//draw_detection(cp1, out, 7, "before");
			for(k = 0; k < num_output; k += per_box){
			float *post_out = 0;
			float scale = 1.;
			int index = k/per_box;
			int row = index / num_boxes;
			int col = index % num_boxes;
			if (nuisance) scale = 1.-out[k];
			for (class = 0; class < classes; ++class){
			int ci = k+classes+background+nuisance;
			float x = (out[ci + 0] + col)/num_boxes;
			float y = (out[ci + 1] + row)/num_boxes;
			float w = out[ci + 2]; //* distance_from_edge(row, num_boxes);
			float h = out[ci + 3]; //* distance_from_edge(col, num_boxes);
			w = w*w;
			h = h*h;
			float prob = scale*out[k+class+background+nuisance];
			if (prob >= threshold) {
			x *= im.w;
			y *= im.h;
			w *= im.w;
			h *= im.h;
			w += 32;
			h += 32;
			int left = (x - w/2);
			int top = (y - h/2);
			int right = (x + w/2);
			int bot = (y+h/2);
			if (left < 0) left = 0;
			if (right > im.w) right = im.w;
			if (top < 0) top = 0;
			if (bot > im.h) bot = im.h;

			image crop = crop_image(im, left, top, right-left, bot-top);
			image resize = resize_image(crop, post.w, post.h);
			if (!post_out){
			post_out = network_predict(post, resize.data);
			}
			/*
			draw_localization(resize, post_out);
			show_image(resize, "second");
			fprintf(stderr, "%s\n", class_names[class]);
			cvWaitKey(0);
			*/
			int index = 4*class;
			float px = post_out[index+0];
			float py = post_out[index+1];
			float pw = post_out[index+2];
			float ph = post_out[index+3];
			px = (px * crop.w + left) / im.w;
			py = (py * crop.h + top) / im.h;
			pw = (pw * crop.w) / im.w;
			ph = (ph * crop.h) / im.h;

			out[ci + 0] = px*num_boxes - col;
			out[ci + 1] = py*num_boxes - row;
			out[ci + 2] = sqrt(pw);
			out[ci + 3] = sqrt(ph);
			/*
			show_image(crop, "cropped");
			cvWaitKey(0);
			*/
			free_image(crop);
			free_image(resize);
			printf("%d %d %f %f %f %f %f\n", i, class, prob, px, py, pw, ph);
			}
			}
			}
			/*
			image cp2 = copy_image(im);
			draw_detection(cp2, out, 7, "after");
			cvWaitKey(0);
			*/
			}
			fprintf(stderr, "Total Detection Time: %f Seconds\n", (double)(time(0) - start));
			}

			void test_detection(char cfgfile, char weightfile)
			@@ -601,23 +211,30 @@
			if(weightfile){
			load_weights(&net, weightfile);
			}
			detection_layer layer = get_network_detection_layer(net);
			if (!layer.joint) fprintf(stderr, "Detection layer should use joint prediction to draw correctly.\n");
			int im_size = 448;
			set_batch_network(&net, 1);
			srand(2222222);
			clock_t time;
			char filename[256];
			while(1){
			printf("Image Path: ");
			fflush(stdout);
			fgets(filename, 256, stdin);
			strtok(filename, "\n");
			image im = load_image_color(filename, im_size, im_size);
			printf("%d %d %d\n", im.h, im.w, im.c);
			float *X = im.data;
			image im = load_image_color(filename,0,0);
			image sized = resize_image(im, im_size, im_size);
			float *X = sized.data;
			time=clock();
			float *predictions = network_predict(net, X);
			printf("%s: Predicted in %f seconds.\n", filename, sec(clock()-time));
			draw_detection(im, predictions, 7, "detections");
			draw_detection(im, predictions, 7, "predictions");
			free_image(im);
			free_image(sized);
			#ifdef OPENCV
			cvWaitKey(0);
			#endif
			}
			}

			@@ -632,9 +249,5 @@
			char *weights = (argc > 4) ? argv[4] : 0;
			if(0==strcmp(argv[2], "test")) test_detection(cfg, weights);
			else if(0==strcmp(argv[2], "train")) train_detection(cfg, weights);
			else if(0==strcmp(argv[2], "teststuff")) train_detection_teststuff(cfg, weights);
			else if(0==strcmp(argv[2], "trainloc")) train_localization(cfg, weights);
			else if(0==strcmp(argv[2], "valid")) validate_detection(cfg, weights);
			else if(0==strcmp(argv[2], "mask")) mask_detection(cfg, weights);
			else if(0==strcmp(argv[2], "validpost")) validate_detection_post(cfg, weights);
			}