/// <summary>
        /// Construct a starting HyperNEAT population.  does not generate the
        /// initial random population of genomes.
        /// </summary>
        /// <param name="theSubstrate">The substrate ID.</param>
        /// <param name="populationSize">The population size.</param>
        public NEATPopulation(Substrate theSubstrate, int populationSize)
            : base(populationSize, new FactorHyperNEATGenome())
        {
            SurvivalRate             = DefaultSurvivalRate;
            WeightRange              = 5;
            InitialConnectionDensity = 0.1;
            RandomNumberFactory      = EncogFramework.Instance
                                       .RandomFactory.FactorFactory();

            CurrentSubstrate = theSubstrate;
            InputCount       = 6;
            OutputCount      = 2;
            HyperNEATGenome.BuildCPPNActivationFunctions(_activationFunctions);
        }
Exemplo n.º 2
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        /// <inheritdoc/>
        public Object Read(Stream istream)
        {
            long nextInnovationId = 0;
            long nextGeneId       = 0;

            var result         = new NEATPopulation();
            var innovationList = new NEATInnovationList {
                Population = result
            };

            result.Innovations = innovationList;
            var reader = new EncogReadHelper(istream);
            EncogFileSection section;

            while ((section = reader.ReadNextSection()) != null)
            {
                if (section.SectionName.Equals("NEAT-POPULATION") &&
                    section.SubSectionName.Equals("INNOVATIONS"))
                {
                    foreach (String line in section.Lines)
                    {
                        IList <String> cols = EncogFileSection
                                              .SplitColumns(line);
                        var innovation   = new NEATInnovation();
                        var innovationId = int.Parse(cols[1]);
                        innovation.InnovationId = innovationId;
                        innovation.NeuronId     = int.Parse(cols[2]);
                        result.Innovations.Innovations[cols[0]] = innovation;
                        nextInnovationId = Math.Max(nextInnovationId, innovationId + 1);
                    }
                }
                else if (section.SectionName.Equals("NEAT-POPULATION") &&
                         section.SubSectionName.Equals("SPECIES"))
                {
                    NEATGenome   lastGenome  = null;
                    BasicSpecies lastSpecies = null;

                    foreach (String line in section.Lines)
                    {
                        IList <String> cols = EncogFileSection.SplitColumns(line);

                        if (String.Compare(cols[0], "s", StringComparison.OrdinalIgnoreCase) == 0)
                        {
                            lastSpecies = new BasicSpecies
                            {
                                Population        = result,
                                Age               = int.Parse(cols[1]),
                                BestScore         = CSVFormat.EgFormat.Parse(cols[2]),
                                GensNoImprovement = int.Parse(cols[3])
                            };
                            result.Species.Add(lastSpecies);
                        }
                        else if (String.Compare(cols[0], "g", StringComparison.OrdinalIgnoreCase) == 0)
                        {
                            bool isLeader = lastGenome == null;
                            lastGenome = new NEATGenome
                            {
                                InputCount      = result.InputCount,
                                OutputCount     = result.OutputCount,
                                Species         = lastSpecies,
                                AdjustedScore   = CSVFormat.EgFormat.Parse(cols[1]),
                                Score           = CSVFormat.EgFormat.Parse(cols[2]),
                                BirthGeneration = int.Parse(cols[3])
                            };
                            lastSpecies.Add(lastGenome);
                            if (isLeader)
                            {
                                lastSpecies.Leader = lastGenome;
                            }
                        }
                        else if (String.Compare(cols[0], "n", StringComparison.OrdinalIgnoreCase) == 0)
                        {
                            var neuronGene = new NEATNeuronGene();
                            int geneId     = int.Parse(cols[1]);
                            neuronGene.Id = geneId;

                            IActivationFunction af = EncogFileSection.ParseActivationFunction(cols[2]);
                            neuronGene.ActivationFunction = af;

                            neuronGene.NeuronType   = PersistNEATPopulation.StringToNeuronType(cols[3]);
                            neuronGene.InnovationId = int.Parse(cols[4]);
                            lastGenome.NeuronsChromosome.Add(neuronGene);
                            nextGeneId = Math.Max(geneId + 1, nextGeneId);
                        }
                        else if (String.Compare(cols[0], "l", StringComparison.OrdinalIgnoreCase) == 0)
                        {
                            var linkGene = new NEATLinkGene
                            {
                                Id           = int.Parse(cols[1]),
                                Enabled      = (int.Parse(cols[2]) > 0),
                                FromNeuronId = int.Parse(cols[3]),
                                ToNeuronId   = int.Parse(cols[4]),
                                Weight       = CSVFormat.EgFormat.Parse(cols[5]),
                                InnovationId = int.Parse(cols[6])
                            };
                            lastGenome.LinksChromosome.Add(linkGene);
                        }
                    }
                }
                else if (section.SectionName.Equals("NEAT-POPULATION") &&
                         section.SubSectionName.Equals("CONFIG"))
                {
                    IDictionary <string, string> prm = section.ParseParams();

                    string afStr = prm[NEATPopulation.PropertyNEATActivation];

                    if (String.Compare(afStr, TypeCppn, StringComparison.OrdinalIgnoreCase) == 0)
                    {
                        HyperNEATGenome.BuildCPPNActivationFunctions(result.ActivationFunctions);
                    }
                    else
                    {
                        result.NEATActivationFunction = EncogFileSection.ParseActivationFunction(prm,
                                                                                                 NEATPopulation.PropertyNEATActivation);
                    }

                    result.ActivationCycles = EncogFileSection.ParseInt(prm,
                                                                        PersistConst.ActivationCycles);
                    result.InputCount = EncogFileSection.ParseInt(prm,
                                                                  PersistConst.InputCount);
                    result.OutputCount = EncogFileSection.ParseInt(prm,
                                                                   PersistConst.OutputCount);
                    result.PopulationSize = EncogFileSection.ParseInt(prm,
                                                                      NEATPopulation.PropertyPopulationSize);
                    result.SurvivalRate = EncogFileSection.ParseDouble(prm,
                                                                       NEATPopulation.PropertySurvivalRate);
                    result.ActivationCycles = EncogFileSection.ParseInt(prm,
                                                                        NEATPopulation.PropertyCycles);
                }
            }

            // set factories
            if (result.IsHyperNEAT)
            {
                result.GenomeFactory = new FactorHyperNEATGenome();
                result.CODEC         = new HyperNEATCODEC();
            }
            else
            {
                result.GenomeFactory = new FactorNEATGenome();
                result.CODEC         = new NEATCODEC();
            }

            // set the next ID's
            result.InnovationIDGenerate.CurrentID = nextInnovationId;
            result.GeneIdGenerate.CurrentID       = nextGeneId;

            // find first genome, which should be the best genome
            if (result.Species.Count > 0)
            {
                ISpecies species = result.Species[0];
                if (species.Members.Count > 0)
                {
                    result.BestGenome = species.Members[0];
                }
            }

            return(result);
        }