int update_input_filters() { // Try to Update All filters and check if it was a successful update if( !( conditional_filter_update(get_filter_by_name((char*)"in_saccade_translated_filter")) /*& conditional_filter_update(get_filter_by_name((char*)"in_saccade_translated_gaussian_filter"))*/ )) return 0; return 1; }
// Trains the visual search module void visual_search_thin_train(void) { set_neuron_layer_band_gaussian(&nl_v1_activation_map,HIGHEST_OUTPUT,(float)BAND_WIDTH/2.0,BAND_WIDTH); filter_update(get_filter_by_name((char*)"nl_v1_activation_map_f_filter")); train_neuron_layer((char*)"nl_v1_activation_map"); save_gaussian_filtered_training_pattern(&nl_v1_activation_map); all_filters_update(); all_outputs_update(); }
void input_filters_and_outputs_update(void) { conditional_filter_update(get_filter_by_name((char*)"in_saccade_translated_filter")); if(get_output_by_name((char*)"in_saccade_current_filtered_out")) output_update(get_output_by_name((char*)"in_saccade_current_filtered_out")); conditional_filter_update(get_filter_by_name((char*)"in_saccade_translated_scaled_filter")); if(get_output_by_name((char*)"in_saccade_translated_scaled_out")) output_update(get_output_by_name((char*)"in_saccade_translated_scaled_out")); conditional_filter_update(get_filter_by_name((char*)"in_saccade_translated_scaled_gaussian_filter")); if(get_output_by_name((char*)"in_saccade_translated_scaled_gaussian_out")) output_update(get_output_by_name((char*)"in_saccade_translated_scaled_gaussian_out")); conditional_filter_update(get_filter_by_name((char*)"in_saccade_trained_log_polar_filter")); if(get_output_by_name((char*)"in_saccade_trained_log_polar_out")) output_update(get_output_by_name((char*)"in_saccade_trained_log_polar_out")); }
int get_filters( virConnectPtr conn, struct acl_filter **list) { #if LIBVIR_VERSION_NUMBER > 8000 int count = 0; char **names = NULL; struct acl_filter *filters = NULL; int i = 0; count = virConnectNumOfNWFilters(conn); names = calloc(count, sizeof(char *)); if (names == NULL) goto err; virConnectListNWFilters(conn, names, count); filters = calloc(count, sizeof(*filters)); if (filters == NULL) goto err; for(i = 0; i < count; i++) { struct acl_filter *filter = NULL; if (get_filter_by_name(conn, names[i], &filter) == 0) break; memcpy(&filters[i], filter, sizeof(*filter)); free(filter); } *list = filters; err: free(names); return i; #else return 0; #endif }
void input_generator (INPUT_DESC *input, int status) { if (input->win == 0) { init_visual_search_thin (input); } else { if (status == MOVE) { check_input_bounds (input, input->wxd, input->wxd); glutSetWindow (input->win); input_display (); update_input_filters(); all_dendrites_update (); all_neurons_update (); filter_update(get_filter_by_name((char*)"nl_v1_activation_map_f_filter")); //this filter is obligatory all_outputs_update (); } } }
void filters_update() { filter_update(get_filter_by_name((char*)"in_saccade_translated_filter")); filter_update(get_filter_by_name((char*)"in_pattern_translated_filter")); filter_update(get_filter_by_name((char*)"in_pattern_filtered_translated_filter")); filter_update(get_filter_by_name((char*)"in_pattern_filtered_translated_red_filter")); filter_update(get_filter_by_name((char*)"in_pattern_filtered_translated_green_filter")); filter_update(get_filter_by_name((char*)"in_pattern_filtered_translated_blue_filter")); filter_update(get_filter_by_name((char*)"nl_v1_pattern_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"table_v1_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_v1_activation_map_neuron_weight_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_activation_map_hough_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_activation_map_hough_gaussian_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_activation_map_hough_v1_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_activation_map_hough_zoom_filter")); //this filter is obligatory filter_update(get_filter_by_name((char*)"nl_activation_map_hough_zoom_gaussian_filter")); //this filter is obligatory all_dendrites_update(); all_neurons_update(); forward_objects((char*)"nl_v1_activation_map_neuron_weight_filter"); forward_objects((char*)"nl_activation_map_hough_filter"); forward_objects((char*)"nl_activation_map_hough_gaussian_filter"); forward_objects((char*)"nl_activation_map_hough_v1_filter"); forward_objects((char*)"nl_activation_map_hough_zoom_filter"); forward_objects((char*)"nl_activation_map_hough_zoom_gaussian_filter"); }