math

package
v2.8.7 Latest Latest
Warning

This package is not in the latest version of its module.

Go to latest
Published: Jul 26, 2021 License: MIT Imports: 3 Imported by: 0

Documentation

Overview

Package math defines standard mathematical primitives used by the NEAT algorithm as well as utility functions

Index

Constants

This section is empty.

Variables

View Source
var NodeActivators = NewNodeActivatorsFactory()

NodeActivators The default node activators factory reference

Functions

func RandSign

func RandSign() int32

RandSign Returns subsequent random positive or negative integer value (1 or -1) to randomize value sign

func SingleRouletteThrow

func SingleRouletteThrow(probabilities []float64) int

SingleRouletteThrow Performs a single thrown onto a roulette wheel where the wheel's space is unevenly divided. The probability that a segment will be selected is given by that segment's value in the probabilities array. Returns segment index or -1 if something goes awfully wrong

Types

type ActivationFunction

type ActivationFunction func(float64, []float64) float64

ActivationFunction The neuron node activation function type

type ModuleActivationFunction

type ModuleActivationFunction func([]float64, []float64) []float64

ModuleActivationFunction The neurons module activation function type

type NodeActivationType

type NodeActivationType byte

NodeActivationType defines the type of activation function to use for the neuron node

const (
	// The sigmoid activation functions
	SigmoidPlainActivation NodeActivationType = iota + 1
	SigmoidReducedActivation
	SigmoidBipolarActivation
	SigmoidSteepenedActivation
	SigmoidApproximationActivation
	SigmoidSteepenedApproximationActivation
	SigmoidInverseAbsoluteActivation
	SigmoidLeftShiftedActivation
	SigmoidLeftShiftedSteepenedActivation
	SigmoidRightShiftedSteepenedActivation

	// The other activators assortment
	TanhActivation
	GaussianBipolarActivation
	LinearActivation
	LinearAbsActivation
	LinearClippedActivation
	NullActivation
	SignActivation
	SineActivation
	StepActivation

	// The modular activators (with multiple inputs/outputs)
	MultiplyModuleActivation
	MaxModuleActivation
	MinModuleActivation
)

The neuron Activation function Types

type NodeActivatorsFactory

type NodeActivatorsFactory struct {
	// contains filtered or unexported fields
}

NodeActivatorsFactory The factory to provide appropriate neuron node activation function

func NewNodeActivatorsFactory

func NewNodeActivatorsFactory() *NodeActivatorsFactory

NewNodeActivatorsFactory Returns node activator factory initialized with default activation functions

func (*NodeActivatorsFactory) ActivateByType

func (a *NodeActivatorsFactory) ActivateByType(input float64, auxParams []float64, aType NodeActivationType) (float64, error)

ActivateByType is to calculate activation value for give input and auxiliary parameters using activation function with specified type. Will return error and -0.0 activation if unsupported activation type requested.

func (*NodeActivatorsFactory) ActivateModuleByType

func (a *NodeActivatorsFactory) ActivateModuleByType(inputs []float64, auxParams []float64, aType NodeActivationType) ([]float64, error)

ActivateModuleByType will apply corresponding module activation function to the input values and returns appropriate output values. Will panic if unsupported activation function requested

func (*NodeActivatorsFactory) ActivationNameFromType

func (a *NodeActivatorsFactory) ActivationNameFromType(aType NodeActivationType) (string, error)

ActivationNameFromType Returns activation function name from given type

func (*NodeActivatorsFactory) ActivationTypeFromName

func (a *NodeActivatorsFactory) ActivationTypeFromName(name string) (NodeActivationType, error)

ActivationTypeFromName Parse node activation type name and return corresponding activation type

func (*NodeActivatorsFactory) Register

func (a *NodeActivatorsFactory) Register(aType NodeActivationType, aFunc ActivationFunction, fName string)

Register Registers given neuron activation function with provided type and name into the factory

func (*NodeActivatorsFactory) RegisterModule

func (a *NodeActivatorsFactory) RegisterModule(aType NodeActivationType, aFunc ModuleActivationFunction, fName string)

RegisterModule Registers given neuron module activation function with provided type and name into the factory

Jump to

Keyboard shortcuts

? : This menu
/ : Search site
f or F : Jump to
y or Y : Canonical URL