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activations.c
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activations.c
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#include "activations.h"
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
char *get_activation_string(ACTIVATION a)
{
switch(a){
case LOGISTIC:
return "logistic";
case LOGGY:
return "loggy";
case RELU:
return "relu";
case ELU:
return "elu";
case RELIE:
return "relie";
case RAMP:
return "ramp";
case LINEAR:
return "linear";
case TANH:
return "tanh";
case PLSE:
return "plse";
case LEAKY:
return "leaky";
case STAIR:
return "stair";
case HARDTAN:
return "hardtan";
case LHTAN:
return "lhtan";
default:
break;
}
return "relu";
}
ACTIVATION get_activation(char *s)
{
if (strcmp(s, "logistic")==0) return LOGISTIC;
if (strcmp(s, "loggy")==0) return LOGGY;
if (strcmp(s, "relu")==0) return RELU;
if (strcmp(s, "elu")==0) return ELU;
if (strcmp(s, "relie")==0) return RELIE;
if (strcmp(s, "plse")==0) return PLSE;
if (strcmp(s, "hardtan")==0) return HARDTAN;
if (strcmp(s, "lhtan")==0) return LHTAN;
if (strcmp(s, "linear")==0) return LINEAR;
if (strcmp(s, "ramp")==0) return RAMP;
if (strcmp(s, "leaky")==0) return LEAKY;
if (strcmp(s, "tanh")==0) return TANH;
if (strcmp(s, "stair")==0) return STAIR;
fprintf(stderr, "Couldn't find activation function %s, going with ReLU\n", s);
return RELU;
}
float activate(float x, ACTIVATION a)
{
switch(a){
case LINEAR:
return linear_activate(x);
case LOGISTIC:
return logistic_activate(x);
case LOGGY:
return loggy_activate(x);
case RELU:
return relu_activate(x);
case ELU:
return elu_activate(x);
case RELIE:
return relie_activate(x);
case RAMP:
return ramp_activate(x);
case LEAKY:
return leaky_activate(x);
case TANH:
return tanh_activate(x);
case PLSE:
return plse_activate(x);
case STAIR:
return stair_activate(x);
case HARDTAN:
return hardtan_activate(x);
case LHTAN:
return lhtan_activate(x);
}
return 0;
}
void activate_array(float *x, const int n, const ACTIVATION a)
{
int i;
for(i = 0; i < n; ++i){
x[i] = activate(x[i], a);
}
}
float gradient(float x, ACTIVATION a)
{
switch(a){
case LINEAR:
return linear_gradient(x);
case LOGISTIC:
return logistic_gradient(x);
case LOGGY:
return loggy_gradient(x);
case RELU:
return relu_gradient(x);
case ELU:
return elu_gradient(x);
case RELIE:
return relie_gradient(x);
case RAMP:
return ramp_gradient(x);
case LEAKY:
return leaky_gradient(x);
case TANH:
return tanh_gradient(x);
case PLSE:
return plse_gradient(x);
case STAIR:
return stair_gradient(x);
case HARDTAN:
return hardtan_gradient(x);
case LHTAN:
return lhtan_gradient(x);
}
return 0;
}
void gradient_array(const float *x, const int n, const ACTIVATION a, float *delta)
{
int i;
for(i = 0; i < n; ++i){
delta[i] *= gradient(x[i], a);
}
}