public override IGenotype ShallowCopy()
{
return(new CollectiveGenotype <T>(Genes.Length)
{
Genes = Genes.Clone() as byte[]
});
}
public override IGenotype ShallowCopy()
{
return(new UInt16Genotype(sizeof(ushort))
{
Genes = Genes.Clone() as byte[]
});
}
public override IGenotype ShallowCopy()
{
return(new Int32Genotype(sizeof(int))
{
Genes = Genes.Clone() as byte[],
});
}
public override IGenotype ShallowCopy()
{
return(new UInt64Genotype(sizeof(ulong))
{
Genes = Genes.Clone() as byte[],
});
}
public void Register(Genes genes)
{
foreach (Entry x in species)
{
float d = genes.Difference(x.genes);
if (d < cSpeciesOffset)
{
// found it!
x.count++;
x.maxCount++;
genes.species = x.id;
genes.isFounder = false;
return;
}
}
// a new species, hurray!
Entry y = new Entry();
y.id = speciesId++;
y.genes = genes.Clone(); // can we have a clone plz?
y.count = 1;
genes.species = y.id;
genes.isFounder = true;
species.Add(y);
}
public override IGenotype ShallowCopy()
{
return(new Float64Genotype(sizeof(double))
{
Genes = Genes.Clone() as byte[],
});
}
public void Mutate(Genes other)
{
Genes the_genes = other.Clone();
the_genes.Mutate();
Create(the_genes);
}
public override TGenotype ShallowCopy <TGenotype>()
{
return(new OrderBasedGenotype(Count)
{
Value = (short[])Value.Clone(),
Genes = Genes.Clone() as byte[]
} as TGenotype);
}