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reverse_connector.h



/*
 *  file : reverse_connector.h
 *
 * [DEFINE DESCRIPTION = Sparse matrix representation class, with connection strengths]
 *
 *  Name                Date        Description
 *  --------------      --------    -------------------------------------
 *  Andrew H. Fagg      08/13/92    Original
 *
 */

#ifndef REVERSE_CONNECTOR_CLASS
#define REVERSE_CONNECTOR_CLASS
#include "names.h"
#include "connector.h"

class reverse_connector_input_class
{
  nsl_data** pointers;
  name_class** names;
  nsl_data*** contributing_arrays; /* Temporary pointers. */
  int* contributing_indices;
  int num_pointers;  /*  Number of connections.  */
  int num_allocated; /*  Number of spaces allocated for connections.*/
/*  short flags; */
 public:
  reverse_connector_input_class();
  ~reverse_connector_input_class();
  void reverse_connector_input_class::add_connection(nsl_data**,        //OVERLOAD CALL: add_connection: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
						   int,name_class*);
  nsl_vector reverse_connector_input_class::get_values();        //OVERLOAD CALL: get_values: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class), sensor.c(sensor_class)
  name_class* reverse_connector_input_class::get_name(int);        //OVERLOAD CALL: get_name: column.c(column_class), connector.c(connector_class), gate.c(gate_class), layer.c(layer_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class), sensor.c(sensor_class)
  int reverse_connector_input_class::get_num_connections();        //OVERLOAD CALL: get_num_connections: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
/*  short reverse_connector_input_class::get_flags();*/        //OVERLOAD CALL: get_flags: connector.c(connector_class), reverse_connector.c(reverse_connector_output_class)
  void reverse_connector_input_class::init_contributing_arrays();
  void report_state(nsl_vector*, nsl_vector*, nsl_vector*, nsl_vector*);        //OVERLOAD CALL: report_state: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
};


class reverse_connector_output_class
{
  nsl_data** pointers;
  name_class** names;
  nsl_data* contributions;
  int num_pointers;  /*  Number of connections.  */
  int num_allocated; /*  Number of spaces allocated for connections.*/
  nsl_vector* initial_weights;
  short flags;
public:
  reverse_connector_output_class(short);
  ~reverse_connector_output_class();
  void reverse_connector_output_class::add_connection(nsl_data*, name_class*,        //OVERLOAD CALL: add_connection: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
				     float);
  void reverse_connector_output_class::set_values(nsl_vector&);        //OVERLOAD CALL: set_values: reverse_connector.c(reverse_connector_output_class), sensor.c(sensor_class), sensor.c(sensor_class)
  nsl_vector reverse_connector_output_class::get_initial_weights(nsl_data*,
								 nsl_data*,
								 nsl_data*);
  name_class* reverse_connector_output_class::get_name(int);        //OVERLOAD CALL: get_name: column.c(column_class), connector.c(connector_class), gate.c(gate_class), layer.c(layer_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class), sensor.c(sensor_class)
  int reverse_connector_output_class::get_num_connections();        //OVERLOAD CALL: get_num_connections: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
  short reverse_connector_output_class::get_flags();        //OVERLOAD CALL: get_flags: connector.c(connector_class), reverse_connector.c(reverse_connector_output_class)
  void reverse_connector_output_class::init_contributions();
  nsl_data** reverse_connector_output_class::get_contributing_array();
  nsl_vector reverse_connector_output_class::get_values();        //OVERLOAD CALL: get_values: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class), sensor.c(sensor_class)
  nsl_vector reverse_connector_output_class::get_contributing_values();
  void reverse_connector_output_class::report_state(nsl_vector*, nsl_vector*, nsl_vector*, nsl_vector*);        //OVERLOAD CALL: report_state: connector.c(connector_class), reverse_connector.c(reverse_connector_input_class), reverse_connector.c(reverse_connector_output_class)
};

#endif


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