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| | | #include "connected_layer.h" |
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| | | #include "convolutional_layer.h" |
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| | | //#include "old_conv.h" |
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| | | #include "maxpool_layer.h" |
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| | | #include "softmax_layer.h" |
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| | | return get_network_delta_layer(net, net.n-1); |
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| | | } |
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| | | |
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| | | void calculate_error_network(network net, double *truth) |
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| | | double calculate_error_network(network net, double *truth) |
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| | | { |
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| | | double sum = 0; |
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| | | double *delta = get_network_delta(net); |
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| | | double *out = get_network_output(net); |
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| | | int i, k = get_network_output_size(net); |
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| | | for(i = 0; i < k; ++i){ |
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| | | delta[i] = truth[i] - out[i]; |
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| | | sum += delta[i]*delta[i]; |
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| | | } |
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| | | return sum; |
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| | | } |
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| | | |
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| | | int get_predicted_class_network(network net) |
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| | | return max_index(out, k); |
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| | | } |
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| | | |
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| | | void backward_network(network net, double *input, double *truth) |
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| | | double backward_network(network net, double *input, double *truth) |
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| | | { |
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| | | calculate_error_network(net, truth); |
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| | | double error = calculate_error_network(net, truth); |
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| | | int i; |
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| | | double *prev_input; |
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| | | double *prev_delta; |
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| | |
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| | | } |
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| | | if(net.types[i] == CONVOLUTIONAL){ |
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| | | convolutional_layer layer = *(convolutional_layer *)net.layers[i]; |
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| | | learn_convolutional_layer(layer, prev_input); |
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| | | if(i != 0) backward_convolutional_layer(layer, prev_input, prev_delta); |
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| | | learn_convolutional_layer(layer); |
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| | | //learn_convolutional_layer(layer); |
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| | | //if(i != 0) backward_convolutional_layer(layer, prev_input, prev_delta); |
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| | | } |
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| | | else if(net.types[i] == MAXPOOL){ |
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| | | maxpool_layer layer = *(maxpool_layer *)net.layers[i]; |
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| | | if(i != 0) backward_connected_layer(layer, prev_input, prev_delta); |
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| | | } |
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| | | } |
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| | | return error; |
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| | | } |
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| | | |
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| | | int train_network_datum(network net, double *x, double *y, double step, double momentum, double decay) |
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| | | double train_network_datum(network net, double *x, double *y, double step, double momentum, double decay) |
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| | | { |
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| | | forward_network(net, x); |
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| | | int class = get_predicted_class_network(net); |
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| | | backward_network(net, x, y); |
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| | | double error = backward_network(net, x, y); |
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| | | update_network(net, step, momentum, decay); |
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| | | return (y[class]?1:0); |
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| | | //return (y[class]?1:0); |
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| | | return error; |
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| | | } |
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| | | |
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| | | double train_network_sgd(network net, data d, int n, double step, double momentum,double decay) |
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| | | { |
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| | | int i; |
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| | | int correct = 0; |
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| | | double error = 0; |
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| | | for(i = 0; i < n; ++i){ |
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| | | int index = rand()%d.X.rows; |
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| | | correct += train_network_datum(net, d.X.vals[index], d.y.vals[index], step, momentum, decay); |
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| | | error += train_network_datum(net, d.X.vals[index], d.y.vals[index], step, momentum, decay); |
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| | | //if((i+1)%10 == 0){ |
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| | | // printf("%d: %f\n", (i+1), (double)correct/(i+1)); |
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| | | //} |
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| | | } |
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| | | return (double)correct/n; |
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| | | return error/n; |
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| | | } |
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| | | double train_network_batch(network net, data d, int n, double step, double momentum,double decay) |
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| | | { |
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| | |
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| | | sprintf(buff, "Layer %d", i); |
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| | | if(net.types[i] == CONVOLUTIONAL){ |
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| | | convolutional_layer layer = *(convolutional_layer *)net.layers[i]; |
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| | | visualize_convolutional_filters(layer, buff); |
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| | | visualize_convolutional_layer(layer, buff); |
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| | | } |
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| | | } |
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| | | } |
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