[![Build Status](https://travis-ci.org/JJ/p6-algorithm-evolutionary-simple.svg?branch=master)](https://travis-ci.org/JJ/p6-algorithm-evolutionary-simple) NAME ==== Algorithm::Evolutionary::Simple - A simple evolutionary algorithm SYNOPSIS ======== use Algorithm::Evolutionary::Simple; DESCRIPTION =========== Algorithm::Evolutionary::Simple is a module for writing simple and quasi-canonical evolutionary algorithms in Perl 6. It uses binary representation, integer fitness (which is needed for the kind of data structure we are using) and a single fitness function. It is intended mainly for demo purposes. In the future, more versions will be available. It uses a fitness cache for storing and not reevaluating, so take care of memory bloat. METHODS ======= initialize( UInt :$size, UInt :$genome-length --> Array ) is export ------------------------------------------------------------------- Creates the initial population of binary chromosomes with the indicated length; returns an array. random-chromosome( UInt $length --> List ) ------------------------------------------ Generates a random chromosome of indicated length. Returns a `Seq` of `Bool`s max-ones( @chromosome --> Int ) ------------------------------- Returns the number of trues (or ones) in the chromosome. royal-road( @chromosome ) ------------------------- That's a bumpy road, returns 1 for each block of 4 which has the same true or false value. multi evaluate( :@population, :%fitness-of, :$evaluator, :$auto-t = False --> Mix ) is export --------------------------------------------------------------------------------------------- Evaluates the chromosomes, storing values in the fitness cache. If `auto-t` is set to 'True', uses autothreading for faster operation (if needed). In absence of that parameter, defaults to sequential. get-pool-roulette-wheel( Mix $population, UInt $need = $population.elems ) is export ------------------------------------------------------------------------------------ Roulette wheel selection. mutation( @chromosome is copy --> Array ) ----------------------------------------- Returns the chromosome with a random bit flipped. crossover ( @chromosome1 is copy, @chromosome2 is copy ) returns List --------------------------------------------------------------------- Returns two chromosomes, with parts of it crossed over. Generally you will want to do crossover first, then mutation. produce-offspring( @pool, $size = @pool.elems --> Seq ) is export ----------------------------------------------------------------- Produces offspring from an array that contains the reproductive pool; it returns a `Seq`. best-fitness( $population ) --------------------------- Returns the fitness of the first element. Mainly useful to check if the algorithm is finished. generation( :@population, :%fitness-of, :$evaluator, :$population-size = $population.elems --> Mix ) ---------------------------------------------------------------------------------------------------- Single generation of an evolutionary algorithm. The initial `Mix` has to be evaluated before entering here using the `evaluate` function. mix( $population1, $population2, $size --> Mix ) is export ----------------------------------------------------------- Mixes the two populations, returning a single one of the indicated size SEE ALSO ======== There is a very interesting implementation of an evolutionary algorithm in [Algorithm::Genetic](Algorithm::Genetic). Check it out. This is also a port of [Algorithm::Evolutionary::Simple to Perl6](https://metacpan.org/release/Algorithm-Evolutionary-Simple), which has a few more goodies. AUTHOR ====== JJ Merelo COPYRIGHT AND LICENSE ===================== Copyright 2018 JJ Merelo This library is free software; you can redistribute it and/or modify it under the Artistic License 2.0.