~speedprog/mtg/mtg_card_detector.git

			@@ -14,8 +14,8 @@
			#include "softmax_layer.h"
			#include "dropout_layer.h"
			#include "detection_layer.h"
			#include "region_layer.h"
			#include "avgpool_layer.h"
			#include "local_layer.h"
			#include "route_layer.h"
			#include "list.h"
			#include "option_list.h"
			@@ -28,6 +28,7 @@

			int is_network(section *s);
			int is_convolutional(section *s);
			int is_local(section *s);
			int is_deconvolutional(section *s);
			int is_connected(section *s);
			int is_maxpool(section *s);
			@@ -38,7 +39,6 @@
			int is_crop(section *s);
			int is_cost(section *s);
			int is_detection(section *s);
			int is_region(section *s);
			int is_route(section *s);
			list read_cfg(char filename);

			@@ -109,6 +109,27 @@
			return layer;
			}

			local_layer parse_local(list *options, size_params params)
			{
			int n = option_find_int(options, "filters",1);
			int size = option_find_int(options, "size",1);
			int stride = option_find_int(options, "stride",1);
			int pad = option_find_int(options, "pad",0);
			char *activation_s = option_find_str(options, "activation", "logistic");
			ACTIVATION activation = get_activation(activation_s);

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

			local_layer layer = make_local_layer(batch,h,w,c,n,size,stride,pad,activation);

			return layer;
			}

			convolutional_layer parse_convolutional(list *options, size_params params)
			{
			int n = option_find_int(options, "filters",1);
			@@ -124,8 +145,9 @@
			c = params.c;
			batch=params.batch;
			if(!(h && w && c)) error("Layer before convolutional layer must output image.");
			int batch_normalize = option_find_int_quiet(options, "batch_normalize", 0);

			convolutional_layer layer = make_convolutional_layer(batch,h,w,c,n,size,stride,pad,activation);
			convolutional_layer layer = make_convolutional_layer(batch,h,w,c,n,size,stride,pad,activation, batch_normalize);

			char *weights = option_find_str(options, "weights", 0);
			char *biases = option_find_str(options, "biases", 0);
			@@ -167,21 +189,9 @@
			int coords = option_find_int(options, "coords", 1);
			int classes = option_find_int(options, "classes", 1);
			int rescore = option_find_int(options, "rescore", 0);
			int joint = option_find_int(options, "joint", 0);
			int objectness = option_find_int(options, "objectness", 0);
			int background = option_find_int(options, "background", 0);
			detection_layer layer = make_detection_layer(params.batch, params.inputs, classes, coords, joint, rescore, background, objectness);
			return layer;
			}

			region_layer parse_region(list *options, size_params params)
			{
			int coords = option_find_int(options, "coords", 1);
			int classes = option_find_int(options, "classes", 1);
			int rescore = option_find_int(options, "rescore", 0);
			int num = option_find_int(options, "num", 1);
			int side = option_find_int(options, "side", 7);
			region_layer layer = make_region_layer(params.batch, params.inputs, num, side, classes, coords, rescore);
			detection_layer layer = make_detection_layer(params.batch, params.inputs, num, side, classes, coords, rescore);

			layer.softmax = option_find_int(options, "softmax", 0);
			layer.sqrt = option_find_int(options, "sqrt", 0);
			@@ -191,6 +201,7 @@
			layer.object_scale = option_find_float(options, "object_scale", 1);
			layer.noobject_scale = option_find_float(options, "noobject_scale", 1);
			layer.class_scale = option_find_float(options, "class_scale", 1);
			layer.jitter = option_find_float(options, "jitter", .2);
			return layer;
			}

			@@ -222,6 +233,7 @@
			int noadjust = option_find_int_quiet(options, "noadjust",0);

			crop_layer l = make_crop_layer(batch,h,w,c,crop_height,crop_width,flip, angle, saturation, exposure);
			l.shift = option_find_float(options, "shift", 0);
			l.noadjust = noadjust;
			return l;
			}
			@@ -413,6 +425,8 @@
			layer l = {0};
			if(is_convolutional(s)){
			l = parse_convolutional(options, params);
			}else if(is_local(s)){
			l = parse_local(options, params);
			}else if(is_deconvolutional(s)){
			l = parse_deconvolutional(options, params);
			}else if(is_connected(s)){
			@@ -423,8 +437,6 @@
			l = parse_cost(options, params);
			}else if(is_detection(s)){
			l = parse_detection(options, params);
			}else if(is_region(s)){
			l = parse_region(options, params);
			}else if(is_softmax(s)){
			l = parse_softmax(options, params);
			}else if(is_normalization(s)){
			@@ -447,6 +459,7 @@
			fprintf(stderr, "Type not recognized: %s\n", s->type);
			}
			l.dontload = option_find_int_quiet(options, "dontload", 0);
			l.dontloadscales = option_find_int_quiet(options, "dontloadscales", 0);
			option_unused(options);
			net.layers[count] = l;
			free_section(s);
			@@ -477,9 +490,9 @@
			{
			return (strcmp(s->type, "[detection]")==0);
			}
			int is_region(section *s)
			int is_local(section *s)
			{
			return (strcmp(s->type, "[region]")==0);
			return (strcmp(s->type, "[local]")==0);
			}
			int is_deconvolutional(section *s)
			{
			@@ -532,24 +545,6 @@
			return (strcmp(s->type, "[route]")==0);
			}

			int read_option(char s, list options)
			{
			size_t i;
			size_t len = strlen(s);
			char *val = 0;
			for(i = 0; i < len; ++i){
			if(s[i] == '='){
			s[i] = '\0';
			val = s+i+1;
			break;
			}
			}
			if(i == len-1) return 0;
			char *key = s;
			option_insert(options, key, val);
			return 1;
			}

			list read_cfg(char filename)
			{
			FILE *file = fopen(filename, "r");
			@@ -646,19 +641,13 @@
			#endif
			int num = l.nl.cl.size*l.size;
			fwrite(l.biases, sizeof(float), l.n, fp);
			fwrite(l.filters, sizeof(float), num, fp);
			}
			if(l.type == DECONVOLUTIONAL){
			#ifdef GPU
			if(gpu_index >= 0){
			pull_deconvolutional_layer(l);
			if (l.batch_normalize){
			fwrite(l.scales, sizeof(float), l.n, fp);
			fwrite(l.rolling_mean, sizeof(float), l.n, fp);
			fwrite(l.rolling_variance, sizeof(float), l.n, fp);
			}
			#endif
			int num = l.nl.cl.size*l.size;
			fwrite(l.biases, sizeof(float), l.n, fp);
			fwrite(l.filters, sizeof(float), num, fp);
			}
			if(l.type == CONNECTED){
			} if(l.type == CONNECTED){
			#ifdef GPU
			if(gpu_index >= 0){
			pull_connected_layer(l);
			@@ -666,6 +655,16 @@
			#endif
			fwrite(l.biases, sizeof(float), l.outputs, fp);
			fwrite(l.weights, sizeof(float), l.outputs*l.inputs, fp);
			} if(l.type == LOCAL){
			#ifdef GPU
			if(gpu_index >= 0){
			pull_local_layer(l);
			}
			#endif
			int locations = l.out_w*l.out_h;
			int size = l.sizel.sizel.cl.nlocations;
			fwrite(l.biases, sizeof(float), l.outputs, fp);
			fwrite(l.filters, sizeof(float), size, fp);
			}
			}
			fclose(fp);
			@@ -695,6 +694,11 @@
			if(l.type == CONVOLUTIONAL){
			int num = l.nl.cl.size*l.size;
			fread(l.biases, sizeof(float), l.n, fp);
			if (l.batch_normalize && (!l.dontloadscales)){
			fread(l.scales, sizeof(float), l.n, fp);
			fread(l.rolling_mean, sizeof(float), l.n, fp);
			fread(l.rolling_variance, sizeof(float), l.n, fp);
			}
			fread(l.filters, sizeof(float), num, fp);
			#ifdef GPU
			if(gpu_index >= 0){
			@@ -721,6 +725,17 @@
			}
			#endif
			}
			if(l.type == LOCAL){
			int locations = l.out_w*l.out_h;
			int size = l.sizel.sizel.cl.nlocations;
			fread(l.biases, sizeof(float), l.outputs, fp);
			fread(l.filters, sizeof(float), size, fp);
			#ifdef GPU
			if(gpu_index >= 0){
			push_local_layer(l);
			}
			#endif
			}
			}
			fprintf(stderr, "Done!\n");
			fclose(fp);