~speedprog/mtg/mtg_card_detector.git

			@@ -49,7 +49,7 @@
			if (strcmp(type, "[cost]")==0) return COST;
			if (strcmp(type, "[detection]")==0) return DETECTION;
			if (strcmp(type, "[region]")==0) return REGION;
			if (strcmp(type, "[yolo]") == 0) return YOLO;
			if (strcmp(type, "[yolo]") == 0) return YOLO;
			if (strcmp(type, "[local]")==0) return LOCAL;
			if (strcmp(type, "[conv]")==0
			\|\| strcmp(type, "[convolutional]")==0) return CONVOLUTIONAL;
			@@ -64,7 +64,7 @@
			if (strcmp(type, "[max]")==0
			\|\| strcmp(type, "[maxpool]")==0) return MAXPOOL;
			if (strcmp(type, "[reorg]")==0) return REORG;
			if (strcmp(type, "[reorg_old]") == 0) return REORG_OLD;
			if (strcmp(type, "[reorg_old]") == 0) return REORG_OLD;
			if (strcmp(type, "[avg]")==0
			\|\| strcmp(type, "[avgpool]")==0) return AVGPOOL;
			if (strcmp(type, "[dropout]")==0) return DROPOUT;
			@@ -74,7 +74,7 @@
			if (strcmp(type, "[soft]")==0
			\|\| strcmp(type, "[softmax]")==0) return SOFTMAX;
			if (strcmp(type, "[route]")==0) return ROUTE;
			if (strcmp(type, "[upsample]") == 0) return UPSAMPLE;
			if (strcmp(type, "[upsample]") == 0) return UPSAMPLE;
			return BLANK;
			}

			@@ -241,68 +241,68 @@

			int parse_yolo_mask(char a, int *num)
			{
			int *mask = 0;
			if (a) {
			int len = strlen(a);
			int n = 1;
			int i;
			for (i = 0; i < len; ++i) {
			if (a[i] == ',') ++n;
			}
			mask = calloc(n, sizeof(int));
			for (i = 0; i < n; ++i) {
			int val = atoi(a);
			mask[i] = val;
			a = strchr(a, ',') + 1;
			}
			*num = n;
			}
			return mask;
			int *mask = 0;
			if (a) {
			int len = strlen(a);
			int n = 1;
			int i;
			for (i = 0; i < len; ++i) {
			if (a[i] == ',') ++n;
			}
			mask = calloc(n, sizeof(int));
			for (i = 0; i < n; ++i) {
			int val = atoi(a);
			mask[i] = val;
			a = strchr(a, ',') + 1;
			}
			*num = n;
			}
			return mask;
			}

			layer parse_yolo(list *options, size_params params)
			{
			int classes = option_find_int(options, "classes", 20);
			int total = option_find_int(options, "num", 1);
			int num = total;
			int classes = option_find_int(options, "classes", 20);
			int total = option_find_int(options, "num", 1);
			int num = total;

			char *a = option_find_str(options, "mask", 0);
			int *mask = parse_yolo_mask(a, &num);
			int max_boxes = option_find_int_quiet(options, "max", 90);
			layer l = make_yolo_layer(params.batch, params.w, params.h, num, total, mask, classes, max_boxes);
			if (l.outputs != params.inputs) {
			printf("Error: l.outputs == params.inputs \n");
			printf("filters= in the [convolutional]-layer doesn't correspond to classes= or mask= in [yolo]-layer \n");
			exit(EXIT_FAILURE);
			}
			//assert(l.outputs == params.inputs);
			char *a = option_find_str(options, "mask", 0);
			int *mask = parse_yolo_mask(a, &num);
			int max_boxes = option_find_int_quiet(options, "max", 90);
			layer l = make_yolo_layer(params.batch, params.w, params.h, num, total, mask, classes, max_boxes);
			if (l.outputs != params.inputs) {
			printf("Error: l.outputs == params.inputs \n");
			printf("filters= in the [convolutional]-layer doesn't correspond to classes= or mask= in [yolo]-layer \n");
			exit(EXIT_FAILURE);
			}
			//assert(l.outputs == params.inputs);

			//l.max_boxes = option_find_int_quiet(options, "max", 90);
			l.jitter = option_find_float(options, "jitter", .2);
			l.focal_loss = option_find_int_quiet(options, "focal_loss", 0);
			//l.max_boxes = option_find_int_quiet(options, "max", 90);
			l.jitter = option_find_float(options, "jitter", .2);
			l.focal_loss = option_find_int_quiet(options, "focal_loss", 0);

			l.ignore_thresh = option_find_float(options, "ignore_thresh", .5);
			l.truth_thresh = option_find_float(options, "truth_thresh", 1);
			l.random = option_find_int_quiet(options, "random", 0);
			l.ignore_thresh = option_find_float(options, "ignore_thresh", .5);
			l.truth_thresh = option_find_float(options, "truth_thresh", 1);
			l.random = option_find_int_quiet(options, "random", 0);

			char *map_file = option_find_str(options, "map", 0);
			if (map_file) l.map = read_map(map_file);
			char *map_file = option_find_str(options, "map", 0);
			if (map_file) l.map = read_map(map_file);

			a = option_find_str(options, "anchors", 0);
			if (a) {
			int len = strlen(a);
			int n = 1;
			int i;
			for (i = 0; i < len; ++i) {
			if (a[i] == ',') ++n;
			}
			for (i = 0; i < n && i < total*2; ++i) {
			float bias = atof(a);
			l.biases[i] = bias;
			a = strchr(a, ',') + 1;
			}
			}
			return l;
			a = option_find_str(options, "anchors", 0);
			if (a) {
			int len = strlen(a);
			int n = 1;
			int i;
			for (i = 0; i < len; ++i) {
			if (a[i] == ',') ++n;
			}
			for (i = 0; i < n && i < total*2; ++i) {
			float bias = atof(a);
			l.biases[i] = bias;
			a = strchr(a, ',') + 1;
			}
			}
			return l;
			}

			layer parse_region(list *options, size_params params)
			@@ -310,21 +310,21 @@
			int coords = option_find_int(options, "coords", 4);
			int classes = option_find_int(options, "classes", 20);
			int num = option_find_int(options, "num", 1);
			int max_boxes = option_find_int_quiet(options, "max", 90);
			int max_boxes = option_find_int_quiet(options, "max", 90);

			layer l = make_region_layer(params.batch, params.w, params.h, num, classes, coords, max_boxes);
			if (l.outputs != params.inputs) {
			printf("Error: l.outputs == params.inputs \n");
			printf("filters= in the [convolutional]-layer doesn't correspond to classes= or num= in [region]-layer \n");
			exit(EXIT_FAILURE);
			}
			if (l.outputs != params.inputs) {
			printf("Error: l.outputs == params.inputs \n");
			printf("filters= in the [convolutional]-layer doesn't correspond to classes= or num= in [region]-layer \n");
			exit(EXIT_FAILURE);
			}
			//assert(l.outputs == params.inputs);

			l.log = option_find_int_quiet(options, "log", 0);
			l.sqrt = option_find_int_quiet(options, "sqrt", 0);

			l.softmax = option_find_int(options, "softmax", 0);
			l.focal_loss = option_find_int_quiet(options, "focal_loss", 0);
			l.focal_loss = option_find_int_quiet(options, "focal_loss", 0);
			//l.max_boxes = option_find_int_quiet(options, "max",30);
			l.jitter = option_find_float(options, "jitter", .2);
			l.rescore = option_find_int_quiet(options, "rescore",0);
			@@ -337,7 +337,7 @@
			l.coord_scale = option_find_float(options, "coord_scale", 1);
			l.object_scale = option_find_float(options, "object_scale", 1);
			l.noobject_scale = option_find_float(options, "noobject_scale", 1);
			l.mask_scale = option_find_float(options, "mask_scale", 1);
			l.mask_scale = option_find_float(options, "mask_scale", 1);
			l.class_scale = option_find_float(options, "class_scale", 1);
			l.bias_match = option_find_int_quiet(options, "bias_match",0);

			@@ -438,26 +438,26 @@

			layer parse_reorg_old(list *options, size_params params)
			{
			printf("\n reorg_old \n");
			int stride = option_find_int(options, "stride", 1);
			int reverse = option_find_int_quiet(options, "reverse", 0);
			printf("\n reorg_old \n");
			int stride = option_find_int(options, "stride", 1);
			int reverse = option_find_int_quiet(options, "reverse", 0);

			int batch, h, w, c;
			h = params.h;
			w = params.w;
			c = params.c;
			batch = params.batch;
			if (!(h && w && c)) error("Layer before reorg layer must output image.");
			int batch, h, w, c;
			h = params.h;
			w = params.w;
			c = params.c;
			batch = params.batch;
			if (!(h && w && c)) error("Layer before reorg layer must output image.");

			layer layer = make_reorg_old_layer(batch, w, h, c, stride, reverse);
			return layer;
			layer layer = make_reorg_old_layer(batch, w, h, c, stride, reverse);
			return layer;
			}

			maxpool_layer parse_maxpool(list *options, size_params params)
			{
			int stride = option_find_int(options, "stride",1);
			int size = option_find_int(options, "size",stride);
			int padding = option_find_int_quiet(options, "padding", (size-1)/2);
			int padding = option_find_int_quiet(options, "padding", size-1);

			int batch,h,w,c;
			h = params.h;
			@@ -511,7 +511,7 @@

			layer parse_shortcut(list *options, size_params params, network net)
			{
			char *l = option_find(options, "from");
			char *l = option_find(options, "from");
			int index = atoi(l);
			if(index < 0) index = params.index + index;

			@@ -547,15 +547,15 @@
			layer parse_upsample(list *options, size_params params, network net)
			{

			int stride = option_find_int(options, "stride", 2);
			layer l = make_upsample_layer(params.batch, params.w, params.h, params.c, stride);
			l.scale = option_find_float_quiet(options, "scale", 1);
			return l;
			int stride = option_find_int(options, "stride", 2);
			layer l = make_upsample_layer(params.batch, params.w, params.h, params.c, stride);
			l.scale = option_find_float_quiet(options, "scale", 1);
			return l;
			}

			route_layer parse_route(list *options, size_params params, network net)
			{
			char *l = option_find(options, "layers");
			char *l = option_find(options, "layers");
			int len = strlen(l);
			if(!l) error("Route Layer must specify input layers");
			int n = 1;
			@@ -632,15 +632,15 @@
			net->inputs = option_find_int_quiet(options, "inputs", net->h * net->w * net->c);
			net->max_crop = option_find_int_quiet(options, "max_crop",net->w*2);
			net->min_crop = option_find_int_quiet(options, "min_crop",net->w);
			net->flip = option_find_int_quiet(options, "flip", 1);
			net->flip = option_find_int_quiet(options, "flip", 1);

			net->small_object = option_find_int_quiet(options, "small_object", 0);
			net->small_object = option_find_int_quiet(options, "small_object", 0);
			net->angle = option_find_float_quiet(options, "angle", 0);
			net->aspect = option_find_float_quiet(options, "aspect", 1);
			net->saturation = option_find_float_quiet(options, "saturation", 1);
			net->exposure = option_find_float_quiet(options, "exposure", 1);
			net->hue = option_find_float_quiet(options, "hue", 0);
			net->power = option_find_float_quiet(options, "power", 4);
			net->power = option_find_float_quiet(options, "power", 4);

			if(!net->inputs && !(net->h && net->w && net->c)) error("No input parameters supplied");

			@@ -648,14 +648,14 @@
			net->policy = get_policy(policy_s);
			net->burn_in = option_find_int_quiet(options, "burn_in", 0);
			#ifdef CUDNN_HALF
			net->burn_in = 0;
			net->burn_in = 0;
			#endif
			if(net->policy == STEP){
			net->step = option_find_int(options, "step", 1);
			net->scale = option_find_float(options, "scale", 1);
			} else if (net->policy == STEPS){
			char *l = option_find(options, "steps");
			char *p = option_find(options, "scales");
			char *l = option_find(options, "steps");
			char *p = option_find(options, "scales");
			if(!l \|\| !p) error("STEPS policy must have steps and scales in cfg file");

			int len = strlen(l);
			@@ -696,7 +696,7 @@

			network parse_network_cfg(char *filename)
			{
			return parse_network_cfg_custom(filename, 0);
			return parse_network_cfg_custom(filename, 0);
			}

			network parse_network_cfg_custom(char *filename, int batch)
			@@ -717,12 +717,12 @@
			params.w = net.w;
			params.c = net.c;
			params.inputs = net.inputs;
			if (batch > 0) net.batch = batch;
			if (batch > 0) net.batch = batch;
			params.batch = net.batch;
			params.time_steps = net.time_steps;
			params.net = net;

			float bflops = 0;
			float bflops = 0;
			size_t workspace_size = 0;
			n = n->next;
			int count = 0;
			@@ -755,8 +755,8 @@
			l = parse_cost(options, params);
			}else if(lt == REGION){
			l = parse_region(options, params);
			}else if (lt == YOLO) {
			l = parse_yolo(options, params);
			}else if (lt == YOLO) {
			l = parse_yolo(options, params);
			}else if(lt == DETECTION){
			l = parse_detection(options, params);
			}else if(lt == SOFTMAX){
			@@ -769,15 +769,15 @@
			}else if(lt == MAXPOOL){
			l = parse_maxpool(options, params);
			}else if(lt == REORG){
			l = parse_reorg(options, params); }
			else if (lt == REORG_OLD) {
			l = parse_reorg_old(options, params);
			l = parse_reorg(options, params); }
			else if (lt == REORG_OLD) {
			l = parse_reorg_old(options, params);
			}else if(lt == AVGPOOL){
			l = parse_avgpool(options, params);
			}else if(lt == ROUTE){
			l = parse_route(options, params, net);
			}else if (lt == UPSAMPLE) {
			l = parse_upsample(options, params, net);
			}else if (lt == UPSAMPLE) {
			l = parse_upsample(options, params, net);
			}else if(lt == SHORTCUT){
			l = parse_shortcut(options, params, net);
			}else if(lt == DROPOUT){
			@@ -807,12 +807,12 @@
			params.c = l.out_c;
			params.inputs = l.outputs;
			}
			if (l.bflops > 0) bflops += l.bflops;
			}
			if (l.bflops > 0) bflops += l.bflops;
			}
			free_list(sections);
			net.outputs = get_network_output_size(net);
			net.output = get_network_output(net);
			printf("Total BFLOPS %5.3f \n", bflops);
			printf("Total BFLOPS %5.3f \n", bflops);
			if(workspace_size){
			//printf("%ld\n", workspace_size);
			#ifdef GPU
			@@ -825,11 +825,11 @@
			net.workspace = calloc(1, workspace_size);
			#endif
			}
			LAYER_TYPE lt = net.layers[net.n - 1].type;
			if ((net.w % 32 != 0 \|\| net.h % 32 != 0) && (lt == YOLO \|\| lt == REGION \|\| lt == DETECTION)) {
			printf("\n Warning: width=%d and height=%d in cfg-file must be divisible by 32 for default networks Yolo v1/v2/v3!!! \n\n",
			net.w, net.h);
			}
			LAYER_TYPE lt = net.layers[net.n - 1].type;
			if ((net.w % 32 != 0 \|\| net.h % 32 != 0) && (lt == YOLO \|\| lt == REGION \|\| lt == DETECTION)) {
			printf("\n Warning: width=%d and height=%d in cfg-file must be divisible by 32 for default networks Yolo v1/v2/v3!!! \n\n",
			net.w, net.h);
			}
			return net;
			}

			@@ -1160,16 +1160,16 @@
			fread(&major, sizeof(int), 1, fp);
			fread(&minor, sizeof(int), 1, fp);
			fread(&revision, sizeof(int), 1, fp);
			if ((major * 10 + minor) >= 2) {
			printf("\n seen 64 \n");
			uint64_t iseen = 0;
			fread(&iseen, sizeof(uint64_t), 1, fp);
			*net->seen = iseen;
			}
			else {
			printf("\n seen 32 \n");
			fread(net->seen, sizeof(int), 1, fp);
			}
			if ((major * 10 + minor) >= 2) {
			printf("\n seen 64 \n");
			uint64_t iseen = 0;
			fread(&iseen, sizeof(uint64_t), 1, fp);
			*net->seen = iseen;
			}
			else {
			printf("\n seen 32 \n");
			fread(net->seen, sizeof(int), 1, fp);
			}
			int transpose = (major > 1000) \|\| (minor > 1000);

			int i;