~speedprog/mtg/mtg_card_detector.git

			@@ -1,5 +1,6 @@
			#include <stdio.h>
			#include <time.h>
			#include <assert.h>
			#include "network.h"
			#include "image.h"
			#include "data.h"
			@@ -8,17 +9,24 @@

			#include "crop_layer.h"
			#include "connected_layer.h"
			#include "gru_layer.h"
			#include "rnn_layer.h"
			#include "crnn_layer.h"
			#include "local_layer.h"
			#include "convolutional_layer.h"
			#include "deconvolutional_layer.h"
			#include "activation_layer.h"
			#include "detection_layer.h"
			#include "region_layer.h"
			#include "normalization_layer.h"
			#include "batchnorm_layer.h"
			#include "maxpool_layer.h"
			#include "reorg_layer.h"
			#include "avgpool_layer.h"
			#include "cost_layer.h"
			#include "softmax_layer.h"
			#include "dropout_layer.h"
			#include "route_layer.h"
			#include "shortcut_layer.h"

			int get_current_batch(network net)
			{
			@@ -26,6 +34,17 @@
			return batch_num;
			}

			void reset_momentum(network net)
			{
			if (net.momentum == 0) return;
			net.learning_rate = 0;
			net.momentum = 0;
			net.decay = 0;
			#ifdef GPU
			//if(net.gpu_index >= 0) update_network_gpu(net);
			#endif
			}

			float get_current_rate(network net)
			{
			int batch_num = get_current_batch(net);
			@@ -41,12 +60,16 @@
			for(i = 0; i < net.num_steps; ++i){
			if(net.steps[i] > batch_num) return rate;
			rate *= net.scales[i];
			//if(net.steps[i] > batch_num - 1 && net.scales[i] > 1) reset_momentum(net);
			}
			return rate;
			case EXP:
			return net.learning_rate * pow(net.gamma, batch_num);
			case POLY:
			if (batch_num < net.burn_in) return net.learning_rate * pow((float)batch_num / net.burn_in, net.power);
			return net.learning_rate * pow(1 - (float)batch_num / net.max_batches, net.power);
			case RANDOM:
			return net.learning_rate * pow(rand_uniform(0,1), net.power);
			case SIG:
			return net.learning_rate * (1./(1.+exp(net.gamma*(batch_num - net.step))));
			default:
			@@ -60,12 +83,24 @@
			switch(a){
			case CONVOLUTIONAL:
			return "convolutional";
			case ACTIVE:
			return "activation";
			case LOCAL:
			return "local";
			case DECONVOLUTIONAL:
			return "deconvolutional";
			case CONNECTED:
			return "connected";
			case RNN:
			return "rnn";
			case GRU:
			return "gru";
			case CRNN:
			return "crnn";
			case MAXPOOL:
			return "maxpool";
			case REORG:
			return "reorg";
			case AVGPOOL:
			return "avgpool";
			case SOFTMAX:
			@@ -82,8 +117,12 @@
			return "cost";
			case ROUTE:
			return "route";
			case SHORTCUT:
			return "shortcut";
			case NORMALIZATION:
			return "normalization";
			case BATCHNORM:
			return "batchnorm";
			default:
			break;
			}
			@@ -105,39 +144,15 @@

			void forward_network(network net, network_state state)
			{
			state.workspace = net.workspace;
			int i;
			for(i = 0; i < net.n; ++i){
			state.index = i;
			layer l = net.layers[i];
			if(l.delta){
			scal_cpu(l.outputs * l.batch, 0, l.delta, 1);
			}
			if(l.type == CONVOLUTIONAL){
			forward_convolutional_layer(l, state);
			} else if(l.type == DECONVOLUTIONAL){
			forward_deconvolutional_layer(l, state);
			} else if(l.type == NORMALIZATION){
			forward_normalization_layer(l, state);
			} else if(l.type == DETECTION){
			forward_detection_layer(l, state);
			} else if(l.type == REGION){
			forward_region_layer(l, state);
			} else if(l.type == CONNECTED){
			forward_connected_layer(l, state);
			} else if(l.type == CROP){
			forward_crop_layer(l, state);
			} else if(l.type == COST){
			forward_cost_layer(l, state);
			} else if(l.type == SOFTMAX){
			forward_softmax_layer(l, state);
			} else if(l.type == MAXPOOL){
			forward_maxpool_layer(l, state);
			} else if(l.type == AVGPOOL){
			forward_avgpool_layer(l, state);
			} else if(l.type == DROPOUT){
			forward_dropout_layer(l, state);
			} else if(l.type == ROUTE){
			forward_route_layer(l, net);
			}
			l.forward(l, state);
			state.input = l.output;
			}
			}
			@@ -149,18 +164,17 @@
			float rate = get_current_rate(net);
			for(i = 0; i < net.n; ++i){
			layer l = net.layers[i];
			if(l.type == CONVOLUTIONAL){
			update_convolutional_layer(l, update_batch, rate, net.momentum, net.decay);
			} else if(l.type == DECONVOLUTIONAL){
			update_deconvolutional_layer(l, rate, net.momentum, net.decay);
			} else if(l.type == CONNECTED){
			update_connected_layer(l, update_batch, rate, net.momentum, net.decay);
			if(l.update){
			l.update(l, update_batch, rate, net.momentum, net.decay);
			}
			}
			}

			float *get_network_output(network net)
			{
			#ifdef GPU
			if (gpu_index >= 0) return get_network_output_gpu(net);
			#endif
			int i;
			for(i = net.n-1; i > 0; --i) if(net.layers[i].type != COST) break;
			return net.layers[i].output;
			@@ -172,15 +186,7 @@
			float sum = 0;
			int count = 0;
			for(i = 0; i < net.n; ++i){
			if(net.layers[i].type == COST){
			sum += net.layers[i].output[0];
			++count;
			}
			if(net.layers[i].type == DETECTION){
			sum += net.layers[i].cost[0];
			++count;
			}
			if(net.layers[i].type == REGION){
			if(net.layers[i].cost){
			sum += net.layers[i].cost[0];
			++count;
			}
			@@ -200,7 +206,9 @@
			int i;
			float *original_input = state.input;
			float *original_delta = state.delta;
			state.workspace = net.workspace;
			for(i = net.n-1; i >= 0; --i){
			state.index = i;
			if(i == 0){
			state.input = original_input;
			state.delta = original_delta;
			@@ -210,41 +218,19 @@
			state.delta = prev.delta;
			}
			layer l = net.layers[i];
			if(l.type == CONVOLUTIONAL){
			backward_convolutional_layer(l, state);
			} else if(l.type == DECONVOLUTIONAL){
			backward_deconvolutional_layer(l, state);
			} else if(l.type == NORMALIZATION){
			backward_normalization_layer(l, state);
			} else if(l.type == MAXPOOL){
			if(i != 0) backward_maxpool_layer(l, state);
			} else if(l.type == AVGPOOL){
			backward_avgpool_layer(l, state);
			} else if(l.type == DROPOUT){
			backward_dropout_layer(l, state);
			} else if(l.type == DETECTION){
			backward_detection_layer(l, state);
			} else if(l.type == REGION){
			backward_region_layer(l, state);
			} else if(l.type == SOFTMAX){
			if(i != 0) backward_softmax_layer(l, state);
			} else if(l.type == CONNECTED){
			backward_connected_layer(l, state);
			} else if(l.type == COST){
			backward_cost_layer(l, state);
			} else if(l.type == ROUTE){
			backward_route_layer(l, net);
			}
			l.backward(l, state);
			}
			}

			float train_network_datum(network net, float x, float y)
			{
			*net.seen += net.batch;
			#ifdef GPU
			if(gpu_index >= 0) return train_network_datum_gpu(net, x, y);
			#endif
			network_state state;
			*net.seen += net.batch;
			state.index = 0;
			state.net = net;
			state.input = x;
			state.delta = 0;
			state.truth = y;
			@@ -276,6 +262,7 @@

			float train_network(network net, data d)
			{
			assert(d.X.rows % net.batch == 0);
			int batch = net.batch;
			int n = d.X.rows / batch;
			float X = calloc(batchd.X.cols, sizeof(float));
			@@ -293,10 +280,13 @@
			return (float)sum/(n*batch);
			}


			float train_network_batch(network net, data d, int n)
			{
			int i,j;
			network_state state;
			state.index = 0;
			state.net = net;
			state.train = 1;
			state.delta = 0;
			float sum = 0;
			@@ -321,39 +311,78 @@
			int i;
			for(i = 0; i < net->n; ++i){
			net->layers[i].batch = b;
			#ifdef CUDNN
			if(net->layers[i].type == CONVOLUTIONAL){
			cudnn_convolutional_setup(net->layers + i);
			}
			#endif
			}
			}

			int resize_network(network *net, int w, int h)
			{
			#ifdef GPU
			cuda_set_device(net->gpu_index);
			if(gpu_index >= 0){
			cuda_free(net->workspace);
			}
			#endif
			int i;
			//if(w == net->w && h == net->h) return 0;
			net->w = w;
			net->h = h;
			int inputs = 0;
			//fprintf(stderr, "Resizing to %d x %d...", w, h);
			size_t workspace_size = 0;
			//fprintf(stderr, "Resizing to %d x %d...\n", w, h);
			//fflush(stderr);
			for (i = 0; i < net->n; ++i){
			layer l = net->layers[i];
			if(l.type == CONVOLUTIONAL){
			resize_convolutional_layer(&l, w, h);
			}else if(l.type == CROP){
			resize_crop_layer(&l, w, h);
			}else if(l.type == MAXPOOL){
			resize_maxpool_layer(&l, w, h);
			}else if(l.type == REGION){
			resize_region_layer(&l, w, h);
			}else if(l.type == ROUTE){
			resize_route_layer(&l, net);
			}else if(l.type == REORG){
			resize_reorg_layer(&l, w, h);
			}else if(l.type == AVGPOOL){
			resize_avgpool_layer(&l, w, h);
			break;
			}else if(l.type == NORMALIZATION){
			resize_normalization_layer(&l, w, h);
			}else if(l.type == COST){
			resize_cost_layer(&l, inputs);
			}else{
			fprintf(stderr, "Resizing type %d \n", (int)l.type);
			error("Cannot resize this type of layer");
			}
			if(l.workspace_size > workspace_size) workspace_size = l.workspace_size;
			inputs = l.outputs;
			net->layers[i] = l;
			w = l.out_w;
			h = l.out_h;
			if(l.type == AVGPOOL) break;
			}
			#ifdef GPU
			if(gpu_index >= 0){
			if(net->input_gpu) {
			cuda_free(*net->input_gpu);
			*net->input_gpu = 0;
			cuda_free(*net->truth_gpu);
			*net->truth_gpu = 0;
			}
			net->workspace = cuda_make_array(0, (workspace_size-1)/sizeof(float)+1);
			}else {
			free(net->workspace);
			net->workspace = calloc(1, workspace_size);
			}
			#else
			free(net->workspace);
			net->workspace = calloc(1, workspace_size);
			#endif
			//fprintf(stderr, " Done!\n");
			return 0;
			}
			@@ -433,6 +462,8 @@
			#endif

			network_state state;
			state.net = net;
			state.index = 0;
			state.input = input;
			state.truth = 0;
			state.train = 0;
			@@ -540,17 +571,16 @@
			return acc;
			}

			float *network_accuracies(network net, data d)
			float *network_accuracies(network net, data d, int n)
			{
			static float acc[2];
			matrix guess = network_predict_data(net, d);
			acc[0] = matrix_topk_accuracy(d.y, guess,1);
			acc[1] = matrix_topk_accuracy(d.y, guess,5);
			acc[0] = matrix_topk_accuracy(d.y, guess, 1);
			acc[1] = matrix_topk_accuracy(d.y, guess, n);
			free_matrix(guess);
			return acc;
			}


			float network_accuracy_multi(network net, data d, int n)
			{
			matrix guess = network_predict_data_multi(net, d, n);
			@@ -561,15 +591,19 @@

			void free_network(network net)
			{
			int i;
			for(i = 0; i < net.n; ++i){
			free_layer(net.layers[i]);
			}
			free(net.layers);
			#ifdef GPU
			if(net.input_gpu) cuda_free(net.input_gpu);
			if(net.truth_gpu) cuda_free(net.truth_gpu);
			if(net.input_gpu) free(net.input_gpu);
			if(net.truth_gpu) free(net.truth_gpu);
			#endif
			int i;
			for (i = 0; i < net.n; ++i) {
			free_layer(net.layers[i]);
			}
			free(net.layers);
			#ifdef GPU
			if (gpu_index >= 0) cuda_free(net.workspace);
			else free(net.workspace);
			if (net.input_gpu) cuda_free(net.input_gpu);
			if (net.truth_gpu) cuda_free(net.truth_gpu);
			if (net.input_gpu) free(net.input_gpu);
			if (net.truth_gpu) free(net.truth_gpu);
			#else
			free(net.workspace);
			#endif
			}