public void AddGeneOccurence(Gene gene, int occurences)
{
if (GeneOccurences.ContainsKey(gene.geneString))
{
GeneOccurences[gene.geneString] += occurences;
genePossibilities += occurences;
}
else
{
GeneOccurences.Add(gene.geneString, occurences);
genePossibilities += occurences;
}
}
public AnimalData()
{
AnimalId = 0;
SpeciesId = 0;
NameId = 0;
Name = "";
IsFertile = true;
SizeGene = new Gene();
LongevityGene = new Gene();
UnknownGene_1 = new Gene();
FertilityGene = new Gene();
ImmunityGene = new Gene();
UnknownGene_2 = new Gene();
}
private void ReadAnimalData(Stream stream, List <string> stringsList)
{
byte[] buffer = new byte[1024];
stream.Seek(serializationSection_start, SeekOrigin.Begin);
stream.Read(buffer, 0, 1);
Debug.WriteLine("Expected number of entries: " + (int)buffer[0]);
while (true)
{
long animalDataBlock_Start = stream.Position;
stream.Read(buffer, 0, 1024);
if (buffer[0] == 0x00)
{
break;
}
ReadOnlySpan <byte> ro = buffer;
long animalDataBlock_End = animalDataBlock_Start + ro.IndexOf(animalSerialization_endBytes) + animalSerialization_endBytes.Length;
AnimalData animal = new AnimalData();
Animals.Add(animal);
if (Gamemode == Gamemode.FRANCHISE)
{
if (Helper.CheckFirstFourBits(buffer[0], 0xC0))
{
animal.AnimalId = Helper.ConvertLastThreeBytes(buffer[0], buffer[1]);
if (Helper.CheckFirstFourBits(buffer[2], 0xC0))
{
animal.SpeciesId = Helper.ConvertLastThreeBytes(buffer[2], buffer[3]);
}
else
{
animal.SpeciesId = buffer[2];
}
}
else
{
animal.AnimalId = buffer[0];
animal.SpeciesId = buffer[1];
}
}
else
{
if (BitConverter.IsLittleEndian)
{
animal.AnimalId = BitConverter.ToUInt32(buffer.Skip(1).Take(4).Reverse().ToArray(), 0);
}
else
{
animal.AnimalId = BitConverter.ToUInt32(buffer.Skip(1).Take(4).ToArray(), 0);
}
animal.SpeciesId = buffer[5];
}
if (stringsList.Count >= animal.SpeciesId)
{
animal.Species = stringsList[(int)animal.SpeciesId];
}
int genePos = 0;
IEnumerable <byte> geneSequence = FallbackGeneSearch(buffer, stream, ref genePos);
// 8 bytes that we will use to find the animal's name and verify genes
byte[] geneIdBytes = new byte[8];
for (int i = genePos; i < buffer.Length; i++)
{
if (Helper.CheckFirstFourBits(buffer[i], 0x80))
{
geneIdBytes = buffer.Skip(i).Take(8).ToArray();
break;
}
}
animal.GeneId = BitConverter.ToUInt64(geneIdBytes, 0);
stream.Seek(datastoreSection_start, SeekOrigin.Begin);
long geneIdPosition = Helper.Seek(stream, geneIdBytes, datastoreSection_end);
byte[] buffer2 = new byte[60];
stream.Seek(geneIdPosition + 8, SeekOrigin.Begin);
stream.Read(buffer2, 0, 60);
ro = buffer2;
//Verify gene, both should be the same; only type of error should be gene being offset by some number of bytes
// If they don't match, check if a subset of the 1st gene sequence is within the 2nd gene sequence
// else, keep checking ahead for the ID and repeat
if (ro.IndexOf(geneSequence.ToArray()) == -1)
{
if (ro.IndexOf(geneSequence.Skip(8).ToArray()) != -1)
{
geneSequence = ro.ToArray();
}
else
{
long geneIdPosition2 = Helper.Seek(stream, geneIdBytes, datastoreSection_end);
while (geneIdPosition2 != -1)
{
stream.Seek(geneIdPosition2 + 8, SeekOrigin.Begin);
stream.Read(buffer2, 0, 60);
ro = buffer2;
if (ro.IndexOf(geneSequence.ToArray()) == -1 && ro.IndexOf(geneSequence.Skip(8).ToArray()) != -1)
{
geneIdPosition2 = Helper.Seek(stream, geneIdBytes, datastoreSection_end);
}
else
{
geneIdPosition = geneIdPosition2;
break;
}
}
}
}
if (Gene.IsValidGeneSequence(geneSequence))
{
animal.SetGene(geneSequence);
}
animal.Name = ReadAnimalDataStore(animal, stream, geneIdPosition, AnimalData.GENE_LENGTH * 5 + geneIdBytes.Length);
stream.Seek(animalDataBlock_End, SeekOrigin.Begin);
}
Debug.WriteLine("Found " + Animals.Count);
}
public static Dictionary <int, List <Gene> > CalculateGenePairings(AnimalData female, AnimalData male, GeneType geneType)
{
byte[] femaleGene;
byte[] maleGene;
switch (geneType)
{
case GeneType.SIZE:
femaleGene = female.SizeGene.geneBytes;
maleGene = male.SizeGene.geneBytes;
break;
case GeneType.LONGEVITY:
femaleGene = female.LongevityGene.geneBytes;
maleGene = male.LongevityGene.geneBytes;
break;
case GeneType.UNKNOWN_1:
return(null);
case GeneType.FERTILITY:
femaleGene = female.FertilityGene.geneBytes;
maleGene = male.FertilityGene.geneBytes;
break;
case GeneType.IMMUNITY:
femaleGene = female.ImmunityGene.geneBytes;
maleGene = male.ImmunityGene.geneBytes;
break;
case GeneType.UNKNOWN_2:
return(null);
default:
return(null);
}
Dictionary <int, List <Gene> > pairings = new Dictionary <int, List <Gene> >();
Gene[] genes = new Gene[4];
genes[0] = new Gene(femaleGene.Take(6).Concat(maleGene.Take(6)).ToArray());
genes[1] = new Gene(femaleGene.Skip(6).Take(6).Concat(maleGene.Take(6)).ToArray());
genes[2] = new Gene(femaleGene.Take(6).Concat(maleGene.Skip(6).Take(6)).ToArray());
genes[3] = new Gene(femaleGene.Skip(6).Take(6).Concat(maleGene.Skip(6).Take(6)).ToArray());
switch (geneType)
{
case GeneType.SIZE:
case GeneType.LONGEVITY:
foreach (Gene gene in genes)
{
int value = (int)(gene.GetGeneValue(GeneValueType.HOMOGENEITY) * 100f);
if (!pairings.ContainsKey(value))
{
pairings.Add(value, new List <Gene>()
{
gene
});
}
else
{
pairings[value].Add(gene);
}
}
break;
case GeneType.FERTILITY:
case GeneType.IMMUNITY:
foreach (Gene gene in genes)
{
int value = (int)(gene.GetGeneValue(GeneValueType.DIVERSITY) * 100f);
if (!pairings.ContainsKey(value))
{
pairings.Add(value, new List <Gene>()
{
gene
});
}
else
{
pairings[value].Add(gene);
}
}
break;
default:
return(null);
}
return(pairings);
}
