~speedprog/mtg/mtg_card_detector.git

			@@ -8,23 +8,25 @@

			int get_detection_layer_locations(detection_layer layer)
			{
			return layer.inputs / (layer.classes+layer.coords+layer.rescore);
			return layer.inputs / (layer.classes+layer.coords+layer.rescore+layer.background);
			}

			int get_detection_layer_output_size(detection_layer layer)
			{
			return get_detection_layer_locations(layer)*(layer.classes+layer.coords);
			return get_detection_layer_locations(layer)*(layer.background + layer.classes + layer.coords);
			}

			detection_layer *make_detection_layer(int batch, int inputs, int classes, int coords, int rescore)
			detection_layer *make_detection_layer(int batch, int inputs, int classes, int coords, int rescore, int background, int nuisance)
			{
			detection_layer *layer = calloc(1, sizeof(detection_layer));


			layer->batch = batch;
			layer->inputs = inputs;
			layer->classes = classes;
			layer->coords = coords;
			layer->rescore = rescore;
			layer->nuisance = nuisance;
			layer->background = background;
			int outputs = get_detection_layer_output_size(*layer);
			layer->output = calloc(batch*outputs, sizeof(float));
			layer->delta = calloc(batch*outputs, sizeof(float));
			@@ -39,38 +41,13 @@
			return layer;
			}


			void forward_detection_layer(const detection_layer layer, network_state state)
			void dark_zone(detection_layer layer, int class, int start, network_state state)
			{
			int in_i = 0;
			int out_i = 0;
			int locations = get_detection_layer_locations(layer);
			int i,j;
			for(i = 0; i < layer.batch*locations; ++i){
			int mask = (!state.truth \|\| state.truth[out_i + layer.classes + 2]);
			float scale = 1;
			if(layer.rescore) scale = state.input[in_i++];
			for(j = 0; j < layer.classes; ++j){
			layer.output[out_i++] = scale*state.input[in_i++];
			}
			if(!layer.rescore){
			softmax_array(layer.output + out_i - layer.classes, layer.classes, layer.output + out_i - layer.classes);
			activate_array(state.input+in_i, layer.coords, LOGISTIC);
			}
			for(j = 0; j < layer.coords; ++j){
			layer.output[out_i++] = mask*state.input[in_i++];
			}
			}
			}

			void dark_zone(detection_layer layer, int index, network_state state)
			{
			int size = layer.classes+layer.rescore+layer.coords;
			int index = start+layer.background+class;
			int size = layer.classes+layer.coords+layer.background;
			int location = (index%(77size)) / size ;
			int r = location / 7;
			int c = location % 7;
			int class = index%size;
			if(layer.rescore) --class;
			int dr, dc;
			for(dr = -1; dr <= 1; ++dr){
			for(dc = -1; dc <= 1; ++dc){
			@@ -79,11 +56,56 @@
			if((c + dc) > 6 \|\| (c + dc) < 0) continue;
			int di = (dr7 + dc) size;
			if(state.truth[index+di]) continue;
			layer.delta[index + di] = 0;
			layer.output[index + di] = 0;
			//if(!state.truth[start+di]) continue;
			//layer.output[start + di] = 1;
			}
			}
			}

			void forward_detection_layer(const detection_layer layer, network_state state)
			{
			int in_i = 0;
			int out_i = 0;
			int locations = get_detection_layer_locations(layer);
			int i,j;
			for(i = 0; i < layer.batch*locations; ++i){
			int mask = (!state.truth \|\| state.truth[out_i + layer.background + layer.classes + 2]);
			float scale = 1;
			if(layer.rescore) scale = state.input[in_i++];
			else if(layer.nuisance){
			layer.output[out_i++] = 1-state.input[in_i++];
			scale = mask;
			}
			else if(layer.background) layer.output[out_i++] = scale*state.input[in_i++];

			for(j = 0; j < layer.classes; ++j){
			layer.output[out_i++] = scale*state.input[in_i++];
			}
			if(layer.nuisance){

			}else if(layer.background){
			softmax_array(layer.output + out_i - layer.classes-layer.background, layer.classes+layer.background, layer.output + out_i - layer.classes-layer.background);
			activate_array(state.input+in_i, layer.coords, LOGISTIC);
			}
			for(j = 0; j < layer.coords; ++j){
			layer.output[out_i++] = mask*state.input[in_i++];
			}
			}
			/*
			if(layer.background \|\| 1){
			for(i = 0; i < layer.batch*locations; ++i){
			int index = i*(layer.classes+layer.coords+layer.background);
			for(j= 0; j < layer.classes; ++j){
			if(state.truth[index+j+layer.background]){
			//dark_zone(layer, j, index, state);
			}
			}
			}
			}
			*/
			}

			void backward_detection_layer(const detection_layer layer, network_state state)
			{
			int locations = get_detection_layer_locations(layer);
			@@ -94,21 +116,19 @@
			float scale = 1;
			float latent_delta = 0;
			if(layer.rescore) scale = state.input[in_i++];
			if(!layer.rescore){
			for(j = 0; j < layer.classes-1; ++j){
			if(state.truth[out_i + j]) dark_zone(layer, out_i+j, state);
			}
			}
			else if (layer.nuisance) state.delta[in_i++] = -layer.delta[out_i++];
			else if (layer.background) state.delta[in_i++] = scale*layer.delta[out_i++];
			for(j = 0; j < layer.classes; ++j){
			latent_delta += state.input[in_i]*layer.delta[out_i];
			state.delta[in_i++] = scale*layer.delta[out_i++];
			}

			if (!layer.rescore) gradient_array(layer.output + out_i, layer.coords, LOGISTIC, layer.delta + out_i);
			if (layer.nuisance) ;
			else if (layer.background) gradient_array(layer.output + out_i, layer.coords, LOGISTIC, layer.delta + out_i);
			for(j = 0; j < layer.coords; ++j){
			state.delta[in_i++] = layer.delta[out_i++];
			}
			if(layer.rescore) state.delta[in_i-layer.coords-layer.classes-layer.rescore] = latent_delta;
			if(layer.rescore) state.delta[in_i-layer.coords-layer.classes-layer.rescore-layer.background] = latent_delta;
			}
			}