/// <summary>
/// Save the script to a stream.
/// </summary>
///
/// <param name="stream">The output stream.</param>
public void Save(Stream stream)
{
var xout = new EncogWriteHelper(stream);
SaveSubSection(xout, "HEADER", "DATASOURCE");
SaveConfig(xout);
if (_script.Fields != null)
{
SaveData(xout);
SaveNormalize(xout);
}
SaveSubSection(xout, "RANDOMIZE", "CONFIG");
SaveSubSection(xout, "CLUSTER", "CONFIG");
SaveSubSection(xout, "BALANCE", "CONFIG");
if (_script.Segregate.SegregateTargets != null)
{
SaveSegregate(xout);
}
SaveSubSection(xout, "GENERATE", "CONFIG");
SaveMachineLearning(xout);
SaveTasks(xout);
xout.Flush();
}
public void Save(Stream stream)
{
EncogWriteHelper helper = new EncogWriteHelper(stream);
if (0 == 0)
{
this.x4ec53e22935ca8a4(helper, "HEADER", "DATASOURCE");
goto Label_00BF;
}
Label_000D:
this.xb65907545d46dd44(helper);
this.x3d1973763c1ba5f6(helper);
helper.Flush();
return;
Label_0094:
this.x4ec53e22935ca8a4(helper, "RANDOMIZE", "CONFIG");
if (-2 == 0)
{
goto Label_00C8;
}
goto Label_00DD;
Label_00BF:
this.x2cf4bfede7840d5b(helper);
if (this._x594135906c55045c.Fields == null)
{
goto Label_0094;
}
Label_00C8:
this.x80a029c2a0fbca61(helper);
this.x6f59fa9537dbb843(helper);
if (2 != 0)
{
if (0 != 0)
{
goto Label_00BF;
}
goto Label_0094;
}
Label_00DD:
if (0 == 0)
{
this.x4ec53e22935ca8a4(helper, "CLUSTER", "CONFIG");
this.x4ec53e22935ca8a4(helper, "BALANCE", "CONFIG");
if (this._x594135906c55045c.Segregate.SegregateTargets != null)
{
this.x312a5c458079831e(helper);
}
else if (0 != 0)
{
goto Label_00BF;
}
this.x4ec53e22935ca8a4(helper, "GENERATE", "CONFIG");
}
goto Label_000D;
}
/// <summary>
/// Save the object.
/// </summary>
/// <param name="os">The stream to write to.</param>
/// <param name="obj">The object to save.</param>
public virtual void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var pop = (NEATPopulation) obj;
xout.AddSection("NEAT-POPULATION");
xout.AddSubSection("CONFIG");
xout.WriteProperty(PersistConst.Snapshot, pop.Snapshot);
xout.WriteProperty(NEATPopulation.PropertyOutputActivation,
pop.OutputActivationFunction);
xout.WriteProperty(NEATPopulation.PropertyNEATActivation,
pop.NeatActivationFunction);
xout.WriteProperty(PersistConst.InputCount, pop.InputCount);
xout.WriteProperty(PersistConst.OutputCount, pop.OutputCount);
xout.WriteProperty(PopulationConst.PropertyOldAgePenalty,
pop.OldAgePenalty);
xout.WriteProperty(PopulationConst.PropertyOldAgeThreshold,
pop.OldAgeThreshold);
xout.WriteProperty(PopulationConst.PropertyPopulationSize,
pop.PopulationSize);
xout.WriteProperty(PopulationConst.PropertySurvivalRate,
pop.SurvivalRate);
xout.WriteProperty(PopulationConst.PropertyYoungAgeThreshold,
pop.YoungBonusAgeThreshold);
xout.WriteProperty(PopulationConst.PropertyYoungAgeBonus,
pop.YoungScoreBonus);
xout.WriteProperty(PopulationConst.PropertyNextGenomeID, pop.GenomeIDGenerate.CurrentID);
xout.WriteProperty(PopulationConst.PropertyNextInnovationID, pop.InnovationIDGenerate.CurrentID);
xout.WriteProperty(PopulationConst.PropertyNextGeneID, pop.GeneIDGenerate.CurrentID);
xout.WriteProperty(PopulationConst.PropertyNextSpeciesID, pop.SpeciesIDGenerate.CurrentID);
xout.AddSubSection("INNOVATIONS");
if (pop.Innovations != null)
{
foreach (IInnovation innovation in pop.Innovations.Innovations)
{
var neatInnovation = (NEATInnovation) innovation;
xout.AddColumn(neatInnovation.InnovationID);
xout.AddColumn(InnovationTypeToString(neatInnovation.InnovationType));
xout.AddColumn(NeuronTypeToString(neatInnovation.NeuronType));
xout.AddColumn(neatInnovation.SplitX);
xout.AddColumn(neatInnovation.SplitY);
xout.AddColumn(neatInnovation.NeuronID);
xout.AddColumn(neatInnovation.FromNeuronID);
xout.AddColumn(neatInnovation.ToNeuronID);
xout.WriteLine();
}
}
xout.AddSubSection("GENOMES");
foreach (IGenome genome in pop.Genomes)
{
var neatGenome = (NEATGenome) genome;
xout.AddColumn("g");
xout.AddColumn(neatGenome.GenomeID);
xout.AddColumn(neatGenome.SpeciesID);
xout.AddColumn(neatGenome.AdjustedScore);
xout.AddColumn(neatGenome.AmountToSpawn);
xout.AddColumn(neatGenome.NetworkDepth);
xout.AddColumn(neatGenome.Score);
xout.WriteLine();
foreach (IGene neuronGene in neatGenome.Neurons.Genes)
{
var neatNeuronGene = (NEATNeuronGene) neuronGene;
xout.AddColumn("n");
xout.AddColumn(neatNeuronGene.Id);
xout.AddColumn(NeuronTypeToString(neatNeuronGene.NeuronType));
xout.AddColumn(neatNeuronGene.Enabled);
xout.AddColumn(neatNeuronGene.InnovationId);
xout.AddColumn(neatNeuronGene.ActivationResponse);
xout.AddColumn(neatNeuronGene.SplitX);
xout.AddColumn(neatNeuronGene.SplitY);
xout.WriteLine();
}
foreach (IGene linkGene in neatGenome.Links.Genes)
{
var neatLinkGene = (NEATLinkGene) linkGene;
xout.AddColumn("l");
xout.AddColumn(neatLinkGene.Id);
xout.AddColumn(neatLinkGene.Enabled);
xout.AddColumn(neatLinkGene.Recurrent);
xout.AddColumn(neatLinkGene.FromNeuronID);
xout.AddColumn(neatLinkGene.ToNeuronID);
xout.AddColumn(neatLinkGene.Weight);
xout.AddColumn(neatLinkGene.InnovationId);
xout.WriteLine();
}
}
xout.AddSubSection("SPECIES");
foreach (ISpecies species in pop.Species)
{
xout.AddColumn(species.SpeciesID);
xout.AddColumn(species.Age);
xout.AddColumn(species.BestScore);
xout.AddColumn(species.GensNoImprovement);
xout.AddColumn(species.NumToSpawn);
xout.AddColumn(species.SpawnsRequired);
xout.AddColumn(species.Leader.GenomeID);
xout.WriteLine();
}
xout.Flush();
}
public void Save(Stream os, object obj)
{
IActivationFunction function;
double num;
IRadialBasisFunction function2;
IActivationFunction[] activationFunctions;
int num3;
double[] @params;
int num4;
IRadialBasisFunction[] functionArray2;
int num5;
EncogWriteHelper helper = new EncogWriteHelper(os);
RBFNetwork network = (RBFNetwork) obj;
FlatNetworkRBF flat = (FlatNetworkRBF) network.Flat;
helper.AddSection("RBF-NETWORK");
helper.AddSubSection("PARAMS");
goto Label_03F8;
Label_0033:
if (num5 < functionArray2.Length)
{
function2 = functionArray2[num5];
if (0 == 0)
{
helper.AddColumn(function2.GetType().Name);
helper.AddColumn(function2.Width);
goto Label_006E;
}
if ((((uint) num3) | 0x7fffffff) != 0)
{
goto Label_02E5;
}
goto Label_020D;
}
helper.Flush();
return;
Label_006E:
helper.AddColumn(function2.Peak);
double[] centers = function2.Centers;
int index = 0;
while (index < centers.Length)
{
double d = centers[index];
helper.AddColumn(d);
index++;
}
if ((((uint) index) - ((uint) num5)) <= uint.MaxValue)
{
helper.WriteLine();
if ((((uint) num5) - ((uint) index)) < 0)
{
goto Label_02A1;
}
num5++;
goto Label_0033;
}
return;
Label_00C6:
functionArray2 = flat.RBF;
num5 = 0;
if ((((uint) num) - ((uint) num)) < 0)
{
goto Label_0125;
}
goto Label_0033;
Label_00FA:
if (num3 < activationFunctions.Length)
{
function = activationFunctions[num3];
goto Label_0161;
}
helper.AddSubSection("RBF");
if ((((uint) num5) | 15) != 0)
{
goto Label_01B0;
}
goto Label_011D;
Label_0117:
num4++;
Label_011D:
if (num4 < @params.Length)
{
num = @params[num4];
helper.AddColumn(num);
goto Label_0117;
}
Label_0125:
helper.WriteLine();
num3++;
goto Label_00FA;
Label_0161:
helper.AddColumn(function.GetType().Name);
@params = function.Params;
Label_017A:
num4 = 0;
if ((((uint) num5) + ((uint) index)) > uint.MaxValue)
{
goto Label_03BC;
}
if ((((uint) num4) + ((uint) num)) <= uint.MaxValue)
{
goto Label_011D;
}
Label_01B0:
if (((uint) num3) >= 0)
{
goto Label_00C6;
}
Label_01C2:
if (0xff == 0)
{
goto Label_017A;
}
num3 = 0;
if ((((uint) index) | 1) != 0)
{
goto Label_00FA;
}
goto Label_00C6;
Label_020D:
helper.WriteProperty("biasActivation", flat.BiasActivation);
helper.AddSubSection("ACTIVATION");
activationFunctions = flat.ActivationFunctions;
goto Label_01C2;
Label_02A1:
helper.WriteProperty("layerContextCount", flat.LayerContextCount);
helper.WriteProperty("layerIndex", flat.LayerIndex);
if ((((uint) index) + ((uint) num)) < 0)
{
goto Label_0117;
}
helper.WriteProperty("output", flat.LayerOutput);
helper.WriteProperty("outputCount", flat.OutputCount);
helper.WriteProperty("weightIndex", flat.WeightIndex);
if ((((uint) num) - ((uint) num5)) < 0)
{
goto Label_03F8;
}
helper.WriteProperty("weights", flat.Weights);
goto Label_020D;
Label_02E5:
helper.WriteProperty("inputCount", flat.InputCount);
helper.WriteProperty("layerCounts", flat.LayerCounts);
if ((((uint) num4) - ((uint) index)) < 0)
{
goto Label_0161;
}
helper.WriteProperty("layerFeedCounts", flat.LayerFeedCounts);
if (0x7fffffff != 0)
{
goto Label_02A1;
}
Label_0378:
helper.WriteProperty("beginTraining", flat.BeginTraining);
helper.WriteProperty("connectionLimit", flat.ConnectionLimit);
helper.WriteProperty("contextTargetOffset", flat.ContextTargetOffset);
helper.WriteProperty("contextTargetSize", flat.ContextTargetSize);
Label_03BC:
helper.WriteProperty("endTraining", flat.EndTraining);
helper.WriteProperty("hasContext", flat.HasContext);
if ((((uint) num5) | 3) == 0)
{
goto Label_006E;
}
goto Label_02E5;
Label_03F8:
helper.AddProperties(network.Properties);
helper.AddSubSection("NETWORK");
goto Label_0378;
}
public void Save(Stream os, object obj)
{
EncogWriteHelper helper = new EncogWriteHelper(os);
BAMNetwork network = (BAMNetwork) obj;
helper.AddSection("BAM");
if (0 == 0)
{
helper.AddSubSection("PARAMS");
helper.AddProperties(network.Properties);
if (0 == 0)
{
helper.AddSubSection("NETWORK");
helper.WriteProperty("f1Count", network.F1Count);
helper.WriteProperty("f2Count", network.F2Count);
helper.WriteProperty("weightsF1F2", network.WeightsF1ToF2);
helper.WriteProperty("weightsF2F1", network.WeightsF2ToF1);
helper.Flush();
}
}
}
/// <summary>
/// Save the data fields.
/// </summary>
///
/// <param name="xout">The output file.</param>
private void SaveData(EncogWriteHelper xout)
{
SaveSubSection(xout, "DATA", "CONFIG");
xout.AddSubSection("STATS");
xout.AddColumn("name");
xout.AddColumn("isclass");
xout.AddColumn("iscomplete");
xout.AddColumn("isint");
xout.AddColumn("isreal");
xout.AddColumn("amax");
xout.AddColumn("amin");
xout.AddColumn("mean");
xout.AddColumn("sdev");
xout.WriteLine();
foreach (DataField field in _script.Fields)
{
xout.AddColumn(field.Name);
xout.AddColumn(field.Class);
xout.AddColumn(field.Complete);
xout.AddColumn(field.Integer);
xout.AddColumn(field.Real);
xout.AddColumn(field.Max);
xout.AddColumn(field.Min);
xout.AddColumn(field.Mean);
xout.AddColumn(field.StandardDeviation);
xout.WriteLine();
}
xout.Flush();
xout.AddSubSection("CLASSES");
xout.AddColumn("field");
xout.AddColumn("code");
xout.AddColumn("name");
xout.WriteLine();
foreach (DataField field in _script.Fields)
{
if (field.Class)
{
foreach (AnalystClassItem col in field.ClassMembers)
{
xout.AddColumn(field.Name);
xout.AddColumn(col.Code);
xout.AddColumn(col.Name);
xout.AddColumn(col.Count);
xout.WriteLine();
}
}
}
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
EncogWriteHelper writer = new EncogWriteHelper(os);
HiddenMarkovModel net = (HiddenMarkovModel)obj;
writer.AddSection("HMM");
writer.AddSubSection("PARAMS");
writer.AddProperties(net.Properties);
writer.AddSubSection("CONFIG");
writer.WriteProperty(HiddenMarkovModel.TAG_STATES, net.StateCount);
if (net.Items != null)
{
writer.WriteProperty(HiddenMarkovModel.TAG_ITEMS, net.Items);
}
writer.WriteProperty(HiddenMarkovModel.TAG_PI, net.Pi);
writer.WriteProperty(HiddenMarkovModel.TAG_TRANSITION, new Matrix(net.TransitionProbability));
for (int i = 0; i < net.StateCount; i++)
{
writer.AddSubSection("DISTRIBUTION-" + i);
IStateDistribution sd = net.StateDistributions[i];
writer.WriteProperty(HiddenMarkovModel.TAG_DIST_TYPE, sd.GetType().Name);
if (sd is ContinousDistribution)
{
ContinousDistribution cDist = (ContinousDistribution)sd;
writer.WriteProperty(HiddenMarkovModel.TAG_MEAN, cDist.Mean);
writer.WriteProperty(HiddenMarkovModel.TAG_COVARIANCE, cDist.Covariance);
}
else if (sd is DiscreteDistribution)
{
DiscreteDistribution dDist = (DiscreteDistribution)sd;
writer.WriteProperty(HiddenMarkovModel.TAG_PROBABILITIES, new Matrix(dDist.Probabilities));
}
}
writer.Flush();
}
/// <summary>
///
/// </summary>
///
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var pnn = (BasicPNN) obj;
xout.AddSection("PNN");
xout.AddSubSection("PARAMS");
xout.AddProperties(pnn.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.Error, pnn.Error);
xout.WriteProperty(PersistConst.InputCount, pnn.InputCount);
xout.WriteProperty(PersistConst.Kernel,
KernelToString(pnn.Kernel));
xout.WriteProperty(PersistConst.OutputCount, pnn.OutputCount);
xout.WriteProperty(PropertyOutputMode,
OutputModeToString(pnn.OutputMode));
xout.WriteProperty(PersistConst.Sigma, pnn.Sigma);
xout.AddSubSection("SAMPLES");
if (pnn.Samples != null)
{
foreach (IMLDataPair pair in pnn.Samples)
{
for (int i = 0; i < pair.Input.Count; i++)
{
xout.AddColumn(pair.Input[i]);
}
for (int i = 0; i < pair.Ideal.Count; i++)
{
xout.AddColumn(pair.Ideal[i]);
}
xout.WriteLine();
}
}
xout.Flush();
}
public virtual void Save(Stream os, object obj)
{
EncogWriteHelper xout = new EncogWriteHelper(os);
NEATNetwork network = (NEATNetwork) obj;
xout.AddSection("NEAT");
xout.AddSubSection("PARAMS");
xout.AddProperties(network.Properties);
xout.AddSubSection("NETWORK");
if (8 != 0)
{
}
xout.WriteProperty("inputCount", network.InputCount);
xout.WriteProperty("outputCount", network.OutputCount);
xout.WriteProperty("activationFunction", network.ActivationFunction);
xout.WriteProperty("outAct", network.OutputActivationFunction);
xout.WriteProperty("depth", network.NetworkDepth);
Label_0087:
xout.WriteProperty("snapshot", network.Snapshot);
xout.AddSubSection("NEURONS");
using (IEnumerator<NEATNeuron> enumerator = network.Neurons.GetEnumerator())
{
NEATNeuron current;
goto Label_00E3;
Label_00B2:
if (8 == 0)
{
goto Label_00F6;
}
xout.AddColumn(current.ActivationResponse);
xout.AddColumn(current.SplitX);
xout.AddColumn(current.SplitY);
xout.WriteLine();
Label_00E3:
if (!enumerator.MoveNext())
{
goto Label_0124;
}
current = enumerator.Current;
Label_00F6:
xout.AddColumn((int) current.NeuronID);
xout.AddColumn(PersistNEATPopulation.NeuronTypeToString(current.NeuronType));
goto Label_00B2;
}
Label_0124:
xout.AddSubSection("LINKS");
foreach (NEATNeuron neuron2 in network.Neurons)
{
foreach (NEATLink link in neuron2.OutputboundLinks)
{
WriteLink(xout, link);
}
}
xout.Flush();
if (-1 != 0)
{
return;
}
goto Label_0087;
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var art1 = (ART1) obj;
xout.AddSection("ART1");
xout.AddSubSection("PARAMS");
xout.AddProperties(art1.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(BasicART.PropertyA1, art1.A1);
xout.WriteProperty(BasicART.PropertyB1, art1.B1);
xout.WriteProperty(BasicART.PropertyC1, art1.C1);
xout.WriteProperty(BasicART.PropertyD1, art1.D1);
xout.WriteProperty(PersistConst.PropertyF1Count, art1.F1Count);
xout.WriteProperty(PersistConst.PropertyF2Count, art1.F2Count);
xout.WriteProperty(BasicART.PropertyNoWinner, art1.NoWinner);
xout.WriteProperty(BasicART.PropertyL, art1.L);
xout.WriteProperty(BasicART.PropertyVigilance, art1.Vigilance);
xout.WriteProperty(PersistConst.PropertyWeightsF1F2,
art1.WeightsF1ToF2);
xout.WriteProperty(PersistConst.PropertyWeightsF2F1,
art1.WeightsF2ToF1);
xout.Flush();
}
/// <summary>
/// Save the object.
/// </summary>
/// <param name="os">The output stream.</param>
/// <param name="obj">The object to save.</param>
public virtual void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var neat = (NEATNetwork) obj;
xout.AddSection("NEAT");
xout.AddSubSection("PARAMS");
xout.AddProperties(neat.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.InputCount, neat.InputCount);
xout.WriteProperty(PersistConst.OutputCount, neat.OutputCount);
xout.WriteProperty(PersistConst.ActivationFunction,
neat.ActivationFunction);
xout.WriteProperty(NEATPopulation.PropertyOutputActivation,
neat.OutputActivationFunction);
xout.WriteProperty(PersistConst.Depth, neat.NetworkDepth);
xout.WriteProperty(PersistConst.Snapshot, neat.Snapshot);
xout.AddSubSection("NEURONS");
foreach (NEATNeuron neatNeuron in neat.Neurons)
{
xout.AddColumn((int)neatNeuron.NeuronID);
xout.AddColumn(PersistNEATPopulation.NeuronTypeToString(neatNeuron.NeuronType));
xout.AddColumn(neatNeuron.ActivationResponse);
xout.AddColumn(neatNeuron.SplitX);
xout.AddColumn(neatNeuron.SplitY);
xout.WriteLine();
}
xout.AddSubSection("LINKS");
foreach (NEATNeuron neatNeuron in neat.Neurons)
{
foreach (NEATLink link in neatNeuron.OutputboundLinks)
{
WriteLink(xout, link);
}
}
xout.Flush();
}
public virtual void Save(Stream os, object obj)
{
NEATPopulation population;
EncogWriteHelper helper = new EncogWriteHelper(os);
if (0 == 0)
{
population = (NEATPopulation) obj;
if (-2147483648 != 0)
{
goto Label_05B6;
}
}
Label_000D:
helper.Flush();
return;
Label_0018:
using (IEnumerator<ISpecies> enumerator5 = population.Species.GetEnumerator())
{
ISpecies species;
goto Label_0049;
Label_0027:
helper.AddColumn(species.Leader.GenomeID);
if (-2 == 0)
{
goto Label_000D;
}
helper.WriteLine();
Label_0049:
if (enumerator5.MoveNext())
{
goto Label_00A2;
}
goto Label_000D;
Label_0054:
helper.AddColumn(species.BestScore);
helper.AddColumn(species.GensNoImprovement);
helper.AddColumn(species.NumToSpawn);
helper.AddColumn(species.SpawnsRequired);
goto Label_0027;
Label_008C:
helper.AddColumn(species.Age);
if (0x7fffffff != 0)
{
goto Label_0054;
}
goto Label_000D;
Label_00A2:
species = enumerator5.Current;
helper.AddColumn(species.SpeciesID);
goto Label_008C;
}
Label_00D2:
if (population.Innovations != null)
{
goto Label_03B2;
}
Label_00DD:
helper.AddSubSection("GENOMES");
using (IEnumerator<IGenome> enumerator2 = population.Genomes.GetEnumerator())
{
IGenome genome;
NEATGenome genome2;
goto Label_01E0;
Label_00FA:
using (List<IGene>.Enumerator enumerator4 = genome2.Links.Genes.GetEnumerator())
{
IGene gene3;
NEATLinkGene gene4;
goto Label_0129;
Label_010F:
if (2 == 0)
{
goto Label_016F;
}
helper.AddColumn(gene4.InnovationId);
helper.WriteLine();
Label_0129:
if (enumerator4.MoveNext())
{
goto Label_01C4;
}
goto Label_01E0;
Label_013A:
helper.AddColumn(gene4.Weight);
goto Label_010F;
Label_014C:
helper.AddColumn(gene4.ToNeuronID);
if (4 != 0)
{
goto Label_013A;
}
goto Label_018C;
Label_0162:
helper.AddColumn(gene4.Enabled);
Label_016F:
helper.AddColumn(gene4.Recurrent);
helper.AddColumn(gene4.FromNeuronID);
if (0 == 0)
{
goto Label_014C;
}
Label_018C:
gene4 = (NEATLinkGene) gene3;
if (1 != 0)
{
}
helper.AddColumn("l");
helper.AddColumn(gene4.Id);
goto Label_0162;
Label_01C4:
gene3 = enumerator4.Current;
if (0 == 0)
{
goto Label_018C;
}
}
Label_01E0:
if (enumerator2.MoveNext())
{
goto Label_030A;
}
goto Label_0361;
Label_01F1:
helper.AddColumn(genome2.AmountToSpawn);
helper.AddColumn(genome2.NetworkDepth);
helper.AddColumn(genome2.Score);
helper.WriteLine();
using (List<IGene>.Enumerator enumerator3 = genome2.Neurons.Genes.GetEnumerator())
{
IGene gene;
NEATNeuronGene gene2;
goto Label_0246;
Label_0233:
helper.AddColumn(gene2.SplitY);
helper.WriteLine();
Label_0246:
if (enumerator3.MoveNext())
{
goto Label_02D6;
}
if (0 == 0)
{
goto Label_02CF;
}
Label_0255:
helper.AddColumn(gene2.Enabled);
helper.AddColumn(gene2.InnovationId);
helper.AddColumn(gene2.ActivationResponse);
helper.AddColumn(gene2.SplitX);
goto Label_0233;
Label_028D:
gene2 = (NEATNeuronGene) gene;
helper.AddColumn("n");
if (8 != 0)
{
}
do
{
helper.AddColumn(gene2.Id);
}
while (0 != 0);
helper.AddColumn(NeuronTypeToString(gene2.NeuronType));
goto Label_0255;
Label_02CF:
if (2 != 0)
{
goto Label_00FA;
}
Label_02D6:
gene = enumerator3.Current;
goto Label_028D;
}
goto Label_00FA;
Label_02FB:
helper.AddColumn(genome2.AdjustedScore);
goto Label_0346;
Label_030A:
genome = enumerator2.Current;
genome2 = (NEATGenome) genome;
if (0 == 0)
{
}
helper.AddColumn("g");
helper.AddColumn(genome2.GenomeID);
helper.AddColumn(genome2.SpeciesID);
goto Label_02FB;
Label_0346:
if (0 == 0)
{
goto Label_01F1;
}
if (0 != 0)
{
goto Label_02FB;
}
goto Label_030A;
}
Label_0361:
helper.AddSubSection("SPECIES");
goto Label_0018;
Label_03B2:
using (IEnumerator<IInnovation> enumerator = population.Innovations.Innovations.GetEnumerator())
{
IInnovation innovation;
NEATInnovation innovation2;
goto Label_03CC;
Label_03C6:
helper.WriteLine();
Label_03CC:
if (enumerator.MoveNext())
{
goto Label_0452;
}
goto Label_00DD;
Label_03DA:
helper.AddColumn(innovation2.SplitY);
helper.AddColumn(innovation2.NeuronID);
helper.AddColumn(innovation2.FromNeuronID);
helper.AddColumn(innovation2.ToNeuronID);
goto Label_03C6;
Label_040C:
if (0 != 0)
{
goto Label_03CC;
}
helper.AddColumn(innovation2.InnovationID);
helper.AddColumn(InnovationTypeToString(innovation2.InnovationType));
helper.AddColumn(NeuronTypeToString(innovation2.NeuronType));
helper.AddColumn(innovation2.SplitX);
goto Label_03DA;
Label_0452:
innovation = enumerator.Current;
innovation2 = (NEATInnovation) innovation;
if (3 != 0)
{
goto Label_040C;
}
goto Label_00DD;
}
if (0x7fffffff != 0)
{
goto Label_00D2;
}
goto Label_0018;
if (-2147483648 != 0)
{
goto Label_000D;
}
Label_05B6:
helper.AddSection("NEAT-POPULATION");
helper.AddSubSection("CONFIG");
helper.WriteProperty("snapshot", population.Snapshot);
helper.WriteProperty("outAct", population.OutputActivationFunction);
helper.WriteProperty("neatAct", population.NeatActivationFunction);
if (0 != 0)
{
goto Label_00DD;
}
if (2 != 0)
{
helper.WriteProperty("inputCount", population.InputCount);
helper.WriteProperty("outputCount", population.OutputCount);
helper.WriteProperty("oldAgePenalty", population.OldAgePenalty);
}
helper.WriteProperty("oldAgeThreshold", population.OldAgeThreshold);
helper.WriteProperty("populationSize", population.PopulationSize);
helper.WriteProperty("survivalRate", population.SurvivalRate);
if (0 != 0)
{
goto Label_0018;
}
helper.WriteProperty("youngAgeThreshold", population.YoungBonusAgeThreshold);
helper.WriteProperty("youngAgeBonus", population.YoungScoreBonus);
helper.WriteProperty("nextGenomeID", population.GenomeIDGenerate.CurrentID);
helper.WriteProperty("nextInnovationID", population.InnovationIDGenerate.CurrentID);
helper.WriteProperty("nextGeneID", population.GeneIDGenerate.CurrentID);
helper.WriteProperty("nextSpeciesID", population.SpeciesIDGenerate.CurrentID);
helper.AddSubSection("INNOVATIONS");
if (0x7fffffff != 0)
{
goto Label_00D2;
}
goto Label_03B2;
}
public void Save(Stream os, object obj)
{
HopfieldNetwork network;
EncogWriteHelper helper = new EncogWriteHelper(os);
goto Label_00A2;
Label_0028:
helper.WriteProperty("neurons", network.NeuronCount);
helper.Flush();
if (4 != 0)
{
return;
}
if (4 != 0)
{
goto Label_00A2;
}
goto Label_0064;
Label_004C:
helper.WriteProperty("output", network.CurrentState.Data);
goto Label_0028;
Label_0064:
helper.AddSection("HOPFIELD");
helper.AddSubSection("PARAMS");
if (2 == 0)
{
goto Label_004C;
}
helper.AddProperties(network.Properties);
helper.AddSubSection("NETWORK");
if (0 == 0)
{
helper.WriteProperty("weights", network.Weights);
goto Label_004C;
}
goto Label_0028;
Label_00A2:
network = (HopfieldNetwork) obj;
goto Label_0064;
}
/// <summary>
///
/// </summary>
///
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var bam = (BAMNetwork) obj;
xout.AddSection("BAM");
xout.AddSubSection("PARAMS");
xout.AddProperties(bam.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.PropertyF1Count, bam.F1Count);
xout.WriteProperty(PersistConst.PropertyF2Count, bam.F2Count);
xout.WriteProperty(PersistConst.PropertyWeightsF1F2,
bam.WeightsF1ToF2);
xout.WriteProperty(PersistConst.PropertyWeightsF2F1,
bam.WeightsF2ToF1);
xout.Flush();
}
public void Save(Stream os, object obj)
{
SupportVectorMachine machine;
EncogWriteHelper helper = new EncogWriteHelper(os);
if (8 != 0)
{
}
Label_026A:
machine = (SupportVectorMachine) obj;
helper.AddSection("SVM");
if (0 == 0)
{
while (true)
{
helper.AddSubSection("PARAMS");
helper.AddProperties(machine.Properties);
helper.AddSubSection("SVM-PARAM");
helper.WriteProperty("inputCount", machine.InputCount);
helper.WriteProperty("C", machine.Params.C);
if (0 == 0)
{
helper.WriteProperty("cacheSize", machine.Params.cache_size);
if (-2 == 0)
{
goto Label_026A;
}
helper.WriteProperty("coef0", machine.Params.coef0);
helper.WriteProperty("degree", machine.Params.degree);
helper.WriteProperty("eps", machine.Params.eps);
helper.WriteProperty("gamma", machine.Params.gamma);
helper.WriteProperty("kernelType", machine.Params.kernel_type);
}
helper.WriteProperty("nrWeight", machine.Params.nr_weight);
if (1 != 0)
{
helper.WriteProperty("nu", machine.Params.nu);
helper.WriteProperty("p", machine.Params.p);
helper.WriteProperty("probability", machine.Params.probability);
helper.WriteProperty("shrinking", machine.Params.shrinking);
helper.WriteProperty("svmType", machine.Params.svm_type);
helper.WriteProperty("weight", machine.Params.weight);
helper.WriteProperty("weightLabel", machine.Params.weight_label);
break;
}
}
}
Label_0092:
while (machine.Model != null)
{
helper.AddSubSection("SVM-MODEL");
try
{
StreamWriter writer;
ASCIIEncoding encoding;
MemoryStream stream = new MemoryStream();
if (1 != 0)
{
goto Label_005F;
}
Label_003E:
helper.Write(encoding.GetString(stream.ToArray()));
writer.Close();
stream.Close();
break;
Label_005F:
writer = new StreamWriter(stream);
if (0 == 0)
{
svm.svm_save_model(writer, machine.Model);
}
encoding = new ASCIIEncoding();
goto Label_003E;
}
catch (IOException exception)
{
throw new PersistError(exception);
}
}
while (true)
{
helper.Flush();
if (-2147483648 != 0)
{
return;
}
if (0 != 0)
{
goto Label_0092;
}
}
}
/// <inheritdoc />
public void Save(Stream ostream, Object obj)
{
var writer = new EncogWriteHelper(ostream);
var pop = (PrgPopulation) obj;
writer.AddSection("BASIC");
writer.AddSubSection("PARAMS");
writer.AddProperties(pop.Properties);
writer.AddSubSection("EPL-OPCODES");
foreach (IProgramExtensionTemplate temp in pop.Context
.Functions.OpCodes)
{
writer.AddColumn(temp.Name);
writer.AddColumn(temp.ChildNodeCount);
writer.WriteLine();
}
writer.AddSubSection("EPL-SYMBOLIC");
writer.AddColumn("name");
writer.AddColumn("type");
writer.AddColumn("enum");
writer.AddColumn("enum_type");
writer.AddColumn("enum_count");
writer.WriteLine();
// write the first line, the result
writer.AddColumn("");
writer.AddColumn(GetType(pop.Context.Result));
writer.AddColumn(pop.Context.Result.EnumType);
writer.AddColumn(pop.Context.Result.EnumValueCount);
writer.WriteLine();
// write the next lines, the variables
foreach (VariableMapping mapping in pop.Context.DefinedVariables)
{
writer.AddColumn(mapping.Name);
writer.AddColumn(GetType(mapping));
writer.AddColumn(mapping.EnumType);
writer.AddColumn(mapping.EnumValueCount);
writer.WriteLine();
}
writer.AddSubSection("EPL-POPULATION");
foreach (ISpecies species in pop.Species)
{
if (species.Members.Count > 0)
{
writer.AddColumn("s");
writer.AddColumn(species.Age);
writer.AddColumn(species.BestScore);
writer.AddColumn(species.GensNoImprovement);
writer.WriteLine();
foreach (IGenome genome in species.Members)
{
var prg = (EncogProgram) genome;
writer.AddColumn("p");
if (Double.IsInfinity(prg.Score)
|| Double.IsNaN(prg.Score))
{
writer.AddColumn("NaN");
writer.AddColumn("NaN");
}
else
{
writer.AddColumn(prg.Score);
writer.AddColumn(prg.AdjustedScore);
}
writer.AddColumn(prg.GenerateEPL());
writer.WriteLine();
}
}
}
writer.Flush();
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var output = new EncogWriteHelper(os);
var pop = (NEATPopulation)obj;
output.AddSection("NEAT-POPULATION");
output.AddSubSection("CONFIG");
output.WriteProperty(PersistConst.ActivationCycles, pop.ActivationCycles);
if (pop.IsHyperNEAT)
{
output.WriteProperty(NEATPopulation.PropertyNEATActivation,TypeCppn);
}
else
{
IActivationFunction af = pop.ActivationFunctions.Contents[0].obj;
output.WriteProperty(NEATPopulation.PropertyNEATActivation, af);
}
output.WriteProperty(PersistConst.InputCount, pop.InputCount);
output.WriteProperty(PersistConst.OutputCount, pop.OutputCount);
output.WriteProperty(NEATPopulation.PropertyCycles, pop.ActivationCycles);
output.WriteProperty(NEATPopulation.PropertyPopulationSize, pop.PopulationSize);
output.WriteProperty(NEATPopulation.PropertySurvivalRate, pop.SurvivalRate);
output.AddSubSection("INNOVATIONS");
if (pop.Innovations != null)
{
foreach (string key in pop.Innovations.Innovations.Keys)
{
NEATInnovation innovation = pop.Innovations.Innovations[key];
output.AddColumn(key);
output.AddColumn(innovation.InnovationId);
output.AddColumn(innovation.NeuronId);
output.WriteLine();
}
}
output.AddSubSection("SPECIES");
// make sure the best species goes first
ISpecies bestSpecies = pop.DetermineBestSpecies();
if (bestSpecies != null)
{
SaveSpecies(output, bestSpecies);
}
// now write the other species, other than the best one
foreach (ISpecies species in pop.Species)
{
if (species != bestSpecies)
{
SaveSpecies(output, species);
}
}
output.Flush();
}
/**
* {@inheritDoc}
*/
public void Save(Stream os, Object obj)
{
var writer = new EncogWriteHelper(os);
var som = (SOMNetwork) obj;
writer.AddSection("SOM");
writer.AddSubSection("PARAMS");
writer.AddProperties(som.Properties);
writer.AddSubSection("NETWORK");
writer.WriteProperty(PersistConst.Weights, som.Weights);
writer.WriteProperty(PersistConst.InputCount, som.InputCount);
writer.WriteProperty(PersistConst.OutputCount, som.OutputCount);
writer.Flush();
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var net = (BasicNetwork) obj;
FlatNetwork flat = net.Structure.Flat;
xout.AddSection("BASIC");
xout.AddSubSection("PARAMS");
xout.AddProperties(net.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(BasicNetwork.TagBeginTraining,
flat.BeginTraining);
xout.WriteProperty(BasicNetwork.TagConnectionLimit,
flat.ConnectionLimit);
xout.WriteProperty(BasicNetwork.TagContextTargetOffset,
flat.ContextTargetOffset);
xout.WriteProperty(BasicNetwork.TagContextTargetSize,
flat.ContextTargetSize);
xout.WriteProperty(BasicNetwork.TagEndTraining, flat.EndTraining);
xout.WriteProperty(BasicNetwork.TagHasContext, flat.HasContext);
xout.WriteProperty(PersistConst.InputCount, flat.InputCount);
xout.WriteProperty(BasicNetwork.TagLayerCounts, flat.LayerCounts);
xout.WriteProperty(BasicNetwork.TagLayerFeedCounts,
flat.LayerFeedCounts);
xout.WriteProperty(BasicNetwork.TagLayerContextCount,
flat.LayerContextCount);
xout.WriteProperty(BasicNetwork.TagLayerIndex, flat.LayerIndex);
xout.WriteProperty(PersistConst.Output, flat.LayerOutput);
xout.WriteProperty(PersistConst.OutputCount, flat.OutputCount);
xout.WriteProperty(BasicNetwork.TagWeightIndex, flat.WeightIndex);
xout.WriteProperty(PersistConst.Weights, flat.Weights);
xout.WriteProperty(BasicNetwork.TagBiasActivation,
flat.BiasActivation);
xout.AddSubSection("ACTIVATION");
foreach (IActivationFunction af in flat.ActivationFunctions)
{
xout.AddColumn(af.GetType().Name);
for (int i = 0; i < af.Params.Length; i++)
{
xout.AddColumn(af.Params[i]);
}
xout.WriteLine();
}
xout.Flush();
}
public void Save(Stream os, object obj)
{
EncogWriteHelper helper = new EncogWriteHelper(os);
BoltzmannMachine machine = (BoltzmannMachine) obj;
helper.AddSection("BOLTZMANN");
Label_00C6:
helper.AddSubSection("PARAMS");
Label_00D1:
helper.AddProperties(machine.Properties);
if (0 != 0)
{
return;
}
Label_0094:
helper.AddSubSection("NETWORK");
helper.WriteProperty("weights", machine.Weights);
helper.WriteProperty("output", machine.CurrentState.Data);
if (0 == 0)
{
helper.WriteProperty("neurons", machine.NeuronCount);
helper.WriteProperty("thresholds", machine.Threshold);
helper.WriteProperty("annealCycles", machine.AnnealCycles);
helper.WriteProperty("runCycles", machine.RunCycles);
helper.WriteProperty("temperature", machine.Temperature);
helper.Flush();
if (0 != 0)
{
goto Label_00D1;
}
if (0 == 0)
{
return;
}
goto Label_0094;
}
goto Label_00C6;
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var cpn = (CPNNetwork) obj;
xout.AddSection("CPN");
xout.AddSubSection("PARAMS");
xout.AddProperties(cpn.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.InputCount, cpn.InputCount);
xout.WriteProperty(PersistConst.Instar, cpn.InstarCount);
xout.WriteProperty(PersistConst.OutputCount, cpn.OutputCount);
xout.WriteProperty(PropertyInputToInstar,
cpn.WeightsInputToInstar);
xout.WriteProperty(PropertyInstarToInput,
cpn.WeightsInstarToOutstar);
xout.WriteProperty(PropertyWinnerCount, cpn.WinnerCount);
xout.Flush();
}
public void Save(Stream os, object obj)
{
CPNNetwork network;
EncogWriteHelper helper = new EncogWriteHelper(os);
if (0 == 0)
{
network = (CPNNetwork) obj;
goto Label_00A8;
}
Label_000D:
helper.WriteProperty("inputToInstar", network.WeightsInputToInstar);
helper.WriteProperty("instarToInput", network.WeightsInstarToOutstar);
helper.WriteProperty("winnerCount", network.WinnerCount);
if (-1 != 0)
{
helper.Flush();
return;
}
Label_0052:
helper.AddProperties(network.Properties);
if (0 == 0)
{
helper.AddSubSection("NETWORK");
helper.WriteProperty("inputCount", network.InputCount);
helper.WriteProperty("instar", network.InstarCount);
helper.WriteProperty("outputCount", network.OutputCount);
goto Label_00C5;
}
Label_00A8:
helper.AddSection("CPN");
helper.AddSubSection("PARAMS");
if (15 != 0)
{
goto Label_0052;
}
Label_00C5:
if (0 == 0)
{
goto Label_000D;
}
}
public void Save(Stream os, object obj)
{
ART1 art;
EncogWriteHelper helper = new EncogWriteHelper(os);
goto Label_010B;
Label_000C:
helper.Flush();
if (2 != 0)
{
return;
}
Label_0019:
helper.WriteProperty("noWinner", art.NoWinner);
do
{
helper.WriteProperty("L", art.L);
}
while (0 != 0);
helper.WriteProperty("VIGILANCE", art.Vigilance);
helper.WriteProperty("weightsF1F2", art.WeightsF1ToF2);
helper.WriteProperty("weightsF2F1", art.WeightsF2ToF1);
goto Label_000C;
Label_010B:
art = (ART1) obj;
if (0 == 0)
{
helper.AddSection("ART1");
helper.AddSubSection("PARAMS");
if (0 == 0)
{
helper.AddProperties(art.Properties);
helper.AddSubSection("NETWORK");
helper.WriteProperty("A1", art.A1);
}
helper.WriteProperty("B1", art.B1);
helper.WriteProperty("C1", art.C1);
if (0 != 0)
{
goto Label_000C;
}
helper.WriteProperty("D1", art.D1);
helper.WriteProperty("f1Count", art.F1Count);
}
helper.WriteProperty("f2Count", art.F2Count);
if (3 != 0)
{
if (0 != 0)
{
return;
}
goto Label_0019;
}
goto Label_010B;
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var svm2 = (SupportVectorMachine) obj;
xout.AddSection("SVM");
xout.AddSubSection("PARAMS");
xout.AddProperties(svm2.Properties);
xout.AddSubSection("SVM-PARAM");
xout.WriteProperty(PersistConst.InputCount, svm2.InputCount);
xout.WriteProperty(ParamC, svm2.Params.C);
xout.WriteProperty(ParamCacheSize,
svm2.Params.cache_size);
xout.WriteProperty(ParamCoef0, svm2.Params.coef0);
xout.WriteProperty(ParamDegree, svm2.Params.degree);
xout.WriteProperty(ParamEps, svm2.Params.eps);
xout.WriteProperty(ParamGamma, svm2.Params.gamma);
xout.WriteProperty(ParamKernelType,
svm2.Params.kernel_type);
xout.WriteProperty(ParamNumWeight,
svm2.Params.nr_weight);
xout.WriteProperty(ParamNu, svm2.Params.nu);
xout.WriteProperty(ParamP, svm2.Params.p);
xout.WriteProperty(ParamProbability,
svm2.Params.probability);
xout.WriteProperty(ParamShrinking,
svm2.Params.shrinking);
/* xout.WriteProperty(PersistSVM.PARAM_START_ITERATIONS,
svm2.Params.statIterations); */
xout.WriteProperty(ParamSVMType, svm2.Params.svm_type);
xout.WriteProperty(ParamWeight, svm2.Params.weight);
xout.WriteProperty(ParamWeightLabel,
svm2.Params.weight_label);
if (svm2.Model != null)
{
xout.AddSubSection("SVM-MODEL");
try
{
var ba = new MemoryStream();
var w = new StreamWriter(ba);
svm.svm_save_model(w, svm2.Model);
var enc = new ASCIIEncoding();
xout.Write(enc.GetString(ba.ToArray()));
w.Close();
ba.Close();
}
catch (IOException ex)
{
throw new PersistError(ex);
}
}
xout.Flush();
}
/// <summary>
///
/// </summary>
///
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var hopfield = (HopfieldNetwork) obj;
xout.AddSection("HOPFIELD");
xout.AddSubSection("PARAMS");
xout.AddProperties(hopfield.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.Weights, hopfield.Weights);
xout.WriteProperty(PersistConst.Output, hopfield.CurrentState.Data);
xout.WriteProperty(PersistConst.NeuronCount, hopfield.NeuronCount);
xout.Flush();
}
public void Save(Stream os, object obj)
{
EncogWriteHelper helper = new EncogWriteHelper(os);
while (true)
{
SOMNetwork network = (SOMNetwork) obj;
helper.AddSection("SOM");
helper.AddSubSection("PARAMS");
helper.AddProperties(network.Properties);
helper.AddSubSection("NETWORK");
helper.WriteProperty("weights", network.Weights);
helper.WriteProperty("inputCount", network.InputCount);
if (0 == 0)
{
helper.WriteProperty("outputCount", network.OutputCount);
helper.Flush();
}
if ((0 != 0) || (0 == 0))
{
return;
}
}
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
EncogWriteHelper o = new EncogWriteHelper(os);
BayesianNetwork b = (BayesianNetwork)obj;
o.AddSection("BAYES-NETWORK");
o.AddSubSection("BAYES-PARAM");
String queryType = "";
String queryStr = b.ClassificationStructure;
if (b.Query != null)
{
queryType = b.Query.GetType().Name;
}
o.WriteProperty("queryType", queryType);
o.WriteProperty("query", queryStr);
o.WriteProperty("contents", b.Contents);
o.AddSubSection("BAYES-PROPERTIES");
o.AddProperties(b.Properties);
o.AddSubSection("BAYES-TABLE");
foreach (BayesianEvent e in b.Events)
{
foreach (TableLine line in e.Table.Lines)
{
if (line == null)
continue;
StringBuilder str = new StringBuilder();
str.Append("P(");
str.Append(BayesianEvent.FormatEventName(e, line.Result));
if (e.Parents.Count > 0)
{
str.Append("|");
}
int index = 0;
bool first = true;
foreach (BayesianEvent parentEvent in e.Parents)
{
if (!first)
{
str.Append(",");
}
first = false;
int arg = line.Arguments[index++];
if (parentEvent.IsBoolean)
{
if (arg == 0)
{
str.Append("+");
}
else
{
str.Append("-");
}
}
str.Append(parentEvent.Label);
if (!parentEvent.IsBoolean)
{
str.Append("=");
if (arg >= parentEvent.Choices.Count)
{
throw new BayesianError("Argument value " + arg + " is out of range for event " + parentEvent.ToString());
}
str.Append(parentEvent.GetChoice(arg));
}
}
str.Append(")=");
str.Append(line.Probability);
str.Append("\n");
o.Write(str.ToString());
}
}
o.Flush();
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var net = (RBFNetwork) obj;
var flat = (FlatNetworkRBF) net.Flat;
xout.AddSection("RBF-NETWORK");
xout.AddSubSection("PARAMS");
xout.AddProperties(net.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(BasicNetwork.TagBeginTraining,
flat.BeginTraining);
xout.WriteProperty(BasicNetwork.TagConnectionLimit,
flat.ConnectionLimit);
xout.WriteProperty(BasicNetwork.TagContextTargetOffset,
flat.ContextTargetOffset);
xout.WriteProperty(BasicNetwork.TagContextTargetSize,
flat.ContextTargetSize);
xout.WriteProperty(BasicNetwork.TagEndTraining, flat.EndTraining);
xout.WriteProperty(BasicNetwork.TagHasContext, flat.HasContext);
xout.WriteProperty(PersistConst.InputCount, flat.InputCount);
xout.WriteProperty(BasicNetwork.TagLayerCounts, flat.LayerCounts);
xout.WriteProperty(BasicNetwork.TagLayerFeedCounts,
flat.LayerFeedCounts);
xout.WriteProperty(BasicNetwork.TagLayerContextCount,
flat.LayerContextCount);
xout.WriteProperty(BasicNetwork.TagLayerIndex, flat.LayerIndex);
xout.WriteProperty(PersistConst.Output, flat.LayerOutput);
xout.WriteProperty(PersistConst.OutputCount, flat.OutputCount);
xout.WriteProperty(BasicNetwork.TagWeightIndex, flat.WeightIndex);
xout.WriteProperty(PersistConst.Weights, flat.Weights);
xout.WriteProperty(BasicNetwork.TagBiasActivation,
flat.BiasActivation);
xout.AddSubSection("ACTIVATION");
foreach (IActivationFunction af in flat.ActivationFunctions)
{
xout.AddColumn(af.GetType().Name);
foreach (double t in af.Params)
{
xout.AddColumn(t);
}
xout.WriteLine();
}
xout.AddSubSection("RBF");
foreach (IRadialBasisFunction rbf in flat.RBF)
{
xout.AddColumn(rbf.GetType().Name);
xout.AddColumn(rbf.Width);
xout.AddColumn(rbf.Peak);
foreach (double t in rbf.Centers)
{
xout.AddColumn(t);
}
xout.WriteLine();
}
xout.Flush();
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var cont = (TrainingContinuation) obj;
xout.AddSection("CONT");
xout.AddSubSection("PARAMS");
xout.WriteProperty("type", cont.TrainingType);
foreach (String key in cont.Contents.Keys)
{
var list = (double[]) cont.Get(key);
xout.WriteProperty(key, list);
}
xout.Flush();
}
/// <inheritdoc/>
public void Save(Stream os, Object obj)
{
var xout = new EncogWriteHelper(os);
var boltz = (BoltzmannMachine) obj;
xout.AddSection("BOLTZMANN");
xout.AddSubSection("PARAMS");
xout.AddProperties(boltz.Properties);
xout.AddSubSection("NETWORK");
xout.WriteProperty(PersistConst.Weights, boltz.Weights);
xout.WriteProperty(PersistConst.Output, boltz.CurrentState.Data);
xout.WriteProperty(PersistConst.NeuronCount, boltz.NeuronCount);
xout.WriteProperty(PersistConst.Thresholds, boltz.Threshold);
xout.WriteProperty(BoltzmannMachine.ParamAnnealCycles,
boltz.AnnealCycles);
xout.WriteProperty(BoltzmannMachine.ParamRunCycles, boltz.RunCycles);
xout.WriteProperty(PersistConst.Temperature, boltz.Temperature);
xout.Flush();
}