darwin 0.6.0 darwin: ^0.6.0 copied to clipboard
A genetic/evolutionary algorithm library for Dart.
import 'dart:async';
import 'dart:math';
import 'package:darwin/darwin.dart';
Future<void> main() async {
// Create first generation, either by random or by continuing with existing
// progress.
var firstGeneration = Generation<MyPhenotype, bool, SingleObjectiveResult>()
..members.addAll(List.generate(10, (_) => MyPhenotype.random()));
// Evaluators take each phenotype and assign a fitness value to it according
// to some fitness function.
var evaluator = MyEvaluator();
// Breeders are in charge of creating new generations from previous ones (that
// have been graded by the evaluator). Their only required argument is
// a function that returns a blank phenotype.
var breeder = GenerationBreeder<MyPhenotype, bool, SingleObjectiveResult>(
() => MyPhenotype())
..crossoverProbability = 0.8;
var algo = GeneticAlgorithm<MyPhenotype, bool, SingleObjectiveResult>(
firstGeneration,
evaluator,
breeder,
);
// Start the algorithm.
await algo.runUntilDone();
// Print all members of the last generation when done.
for (var ph in algo.generations.last.members) {
print(ph.genesAsString);
}
}
Random random = Random();
class MyEvaluator
extends PhenotypeEvaluator<MyPhenotype, bool, SingleObjectiveResult> {
@override
Future<SingleObjectiveResult> evaluate(MyPhenotype phenotype) {
// This implementation just counts false values - the more false values,
// the worse outcome of the fitness function.
final result = SingleObjectiveResult();
result.value =
phenotype.genes.where((bool v) => v == false).length.toDouble();
return Future.value(result);
}
}
class MyPhenotype extends Phenotype<bool, SingleObjectiveResult> {
static int geneCount = 6;
MyPhenotype();
MyPhenotype.random() {
genes = List.generate(geneCount, (index) => random.nextBool());
}
@override
bool mutateGene(bool gene, num strength) {
return !gene;
}
}