/***************************************************************************
* WithoutPostSynaptic.h *
* ------------------- *
* copyright : (C) 2013 by Francisco Naveros *
* email : fnaveros@atc.ugr.es *
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 3 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************/
#ifndef WITHOUTPOSTSYNAPTIC_H_
#define WITHOUTPOSTSYNAPTIC_H_
/*!
* \file WithoutPostSynaptic.h
*
* \author Francisco Naveros
* \date November 2013
*
* This file declares a class which implements a learning rule without postsynaptic learning. In this case, each learning rule definition includes a parameter
* named trigger that can be set to 0 (no trigger connection) or 1 (trigger connection). When a spike reaches a neuron through a synapse that implements these
* learning rules, this synapse updates its weight considering this activity (LTP or LTD). Additionally, when the learning rule associated to this synapse is
* of trigger type, this spike throws another learning mechanism (LTD or LTP) over all the input synapses of that neuron considering their past presynaptic activity.
*/
#include "./LearningRule.h"
/*!
* \class WithLearningRule
*
* \brief Learning rule.
*
* This class abstract the behaviour of a learning rule that does not implement postsynaptic learning.
*
* \author Francisco Naveros
* \date November 2013
*/
class WithoutPostSynaptic : public LearningRule {
public:
/*!
* \brief It initialize the state associated to the learning rule for all the synapses.
*
* It initialize the state associated to the learning rule for all the synapses.
*
* \param NumberOfSynapses the number of synapses that implement this learning rule.
*/
virtual void InitializeConnectionState(unsigned int NumberOfSynapses) = 0;
/*!
* \brief Default constructor with parameters.
*
* It generates a new learning rule with its index.
*
* \param NewLearningRuleIndex learning rule index.
*/
WithoutPostSynaptic(int NewLearningRuleIndex);
/*!
* \brief Object destructor.
*
* It remove the object.
*/
virtual ~WithoutPostSynaptic();
/*!
* \brief It loads the learning rule properties.
*
* It loads the learning rule properties.
*
* \param fh A file handler placed where the Learning rule properties are defined.
* \param Currentline The file line where the handler is placed.
*
* \throw EDLUTFileException If something wrong happens in reading the learning rule properties.
*/
virtual void LoadLearningRule(FILE * fh, long & Currentline) throw (EDLUTFileException)= 0;
/*!
* \brief It applies the weight change function when a presynaptic spike arrives.
*
* It applies the weight change function when a presynaptic spike arrives.
*
* \param Connection The connection where the spike happened.
* \param SpikeTime The spike time.
*/
virtual void ApplyPreSynapticSpike(Interconnection * Connection,double SpikeTime) = 0;
/*!
* \brief It applies the weight change function when a postsynaptic spike arrives.
*
* It applies the weight change function when a postsynaptic spike arrives.
*
* \param Connection The connection where the learning rule happens.
* \param SpikeTime The spike time of the postsynaptic spike.
*/
void ApplyPostSynapticSpike(Interconnection * Connection, double SpikeTime){}
/*!
* \brief It prints the learning rule info.
*
* It prints the current learning rule characteristics.
*
* \param out The stream where it prints the information.
*
* \return The stream after the printer.
*/
virtual ostream & PrintInfo(ostream & out) = 0;
/*!
* \brief It returns if this learning rule implements postsynaptic learning.
*
* It returns if this learning rule implements postsynaptic learning.
*
* \returns if this learning rule implements postsynaptic learning
*/
bool ImplementPostSynaptic();
};
#endif /* WITHOUTPOSTSYNAPTIC_H_ */