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FCM.h
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78 lines (62 loc) · 2.3 KB
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#ifndef FCM_H_
#define FCM_H_
#include "math.h"
#include <vector>
class Ecosystem;
class Predator;
class Prey;
class Sim;
#define FCM_TYPE unsigned char
#define ZERO 0 // when float is mapped to char M.M
using namespace std;
class FCM {
private:
vector<vector<FCM_TYPE> > chart; //-- Map of arcs between concepts
size_t rows;
size_t cols;
int nbArc; //-- Number of arcs in individual's chart
float reproductionSumBeforeFuzzification;
float largestActivation;
short largestActivationIndex;
public:
vector<float> activations; //-- Current concepts about the world
short ConceptIndex; //-- Meisam: shows Concept that should changes its' value after acting
float ConceptMultiplier; //-- Meisam: Based on the ConceptIndex, the value of this concpet should multipy to ConceptMultiplier
FCM();
virtual ~FCM();
FCM (int rows, int cols);
FCM (vector<vector<FCM_TYPE> > * cart, vector<float> *activations);
void calculate_nb_arc();
vector<float> * get_activations();
vector<vector<FCM_TYPE> > * get_chart();
//vector<vector<float> > get_chart_float();
vector<vector<FCM_TYPE> > get_char_chart() { return chart; };
int getNbArc();
float calcul_node_activation_pure(vector<float> *activations_old, int i);
float fuzzy1(float, float, float);
float fuzzy2(float, float, float);
float fuzzy0(float);
float standardizeContinuous(float, float, float, float);
void reset_chart();
void set_activation(int i, float v);
float get_activation(int i);
void set_chart(int i, int j , float v);
void setchar_chart(int i, int j , FCM_TYPE v);
float get_chart(int i, int j);
FCM_TYPE getchar_chart(int i, int j);
size_t get_rows();
size_t get_cols();
void print_chart();
void SetLargestActivation (float l) { largestActivation = l; };
float GetLargestActivation () { return largestActivation; };
void SetLargestActivationIndex (short i) { largestActivationIndex = i; };
short GetLargestActivationIndex () { return largestActivationIndex; };
float GetModifiedReproductionActivation (float m);
bool ReviseReproductionDecision(float persuasion, Ecosystem * eco);
int calculDistanceEvol(Ecosystem *, FCM *fcm);
int calculDistanceEvol(FCM fcm); // M.M
int reproduction_constraint(int, int);
static float char2float(FCM_TYPE c);
static FCM_TYPE float2char(float f);
};
#endif /* FCM_H_ */