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CycleCrossover.cs
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CycleCrossover.cs
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using System.Collections.Generic;
using System.ComponentModel;
using System.Linq;
namespace GeneticSharp
{
/// <summary>
/// Cycle Crossover (CX).
/// <remarks>
/// The Cycle Crossover (CX) proposed by Oliver builds offspring in such a way that each
/// city (and its position) comes from one of the parents.
/// <see href="http://arxiv.org/ftp/arxiv/papers/1203/1203.3097.pdf">A Comparative Study of Adaptive Crossover Operators for Genetic Algorithms to Resolve the Traveling Salesman Problem</see>
/// <para>
/// The Cycle Crossover operator identifies a number of so-called cycles between two parent chromosomes.
/// Then, to form Child 1, cycle one is copied from parent 1, cycle 2 from parent 2, cycle 3 from parent 1, and so on.
/// <see ref="http://www.rubicite.com/Tutorials/GeneticAlgorithms/CrossoverOperators/CycleCrossoverOperator.aspx">Crossover Technique: Cycle Crossover</see>
/// </para>
/// </remarks>
/// </summary>
[DisplayName("Cycle (CX)")]
public class CycleCrossover : CrossoverBase
{
#region Constructors
/// <summary>
/// Initializes a new instance of the <see cref="GeneticSharp.CycleCrossover"/> class.
/// </summary>
public CycleCrossover()
: base(2, 2)
{
IsOrdered = true;
}
#endregion
#region Methods
/// <summary>
/// Performs the cross with specified parents generating the children.
/// </summary>
/// <param name="parents">The parents chromosomes.</param>
/// <returns>The offspring (children) of the parents.</returns>
protected override IList<IChromosome> PerformCross(IList<IChromosome> parents)
{
var parent1 = parents[0];
var parent2 = parents[1];
if (parents.AnyHasRepeatedGene())
{
throw new CrossoverException(this, "The Cycle Crossover (CX) can be only used with ordered chromosomes. The specified chromosome has repeated genes.");
}
var cycles = new List<List<int>>();
var offspring1 = parent1.CreateNew();
var offspring2 = parent2.CreateNew();
var parent1Genes = parent1.GetGenes();
var parent2Genes = parent2.GetGenes();
// Search for the cycles.
for (int i = 0; i < parent1.Length; i++)
{
if (!cycles.SelectMany(p => p).Contains(i))
{
var cycle = new List<int>();
CreateCycle(parent1Genes, parent2Genes, i, cycle);
cycles.Add(cycle);
}
}
// Copy the cycles to the offpring.
for (int i = 0; i < cycles.Count; i++)
{
var cycle = cycles[i];
if (i % 2 == 0)
{
// Copy cycle index pair: values from Parent 1 and copied to Child 1, and values from Parent 2 will be copied to Child 2.
CopyCycleIndexPair(cycle, parent1Genes, offspring1, parent2Genes, offspring2);
}
else
{
// Copy cycle index odd: values from Parent 1 will be copied to Child 2, and values from Parent 1 will be copied to Child 1.
CopyCycleIndexPair(cycle, parent1Genes, offspring2, parent2Genes, offspring1);
}
}
return new List<IChromosome>() { offspring1, offspring2 };
}
/// <summary>
/// Copies the cycle index pair.
/// </summary>
/// <param name="cycle">The cycle.</param>
/// <param name="fromParent1Genes">From parent1 genes.</param>
/// <param name="toOffspring1">To offspring1.</param>
/// <param name="fromParent2Genes">From parent2 genes.</param>
/// <param name="toOffspring2">To offspring2.</param>
private static void CopyCycleIndexPair(IList<int> cycle, Gene[] fromParent1Genes, IChromosome toOffspring1, Gene[] fromParent2Genes, IChromosome toOffspring2)
{
int geneCycleIndex = 0;
for (int j = 0; j < cycle.Count; j++)
{
geneCycleIndex = cycle[j];
toOffspring1.ReplaceGene(geneCycleIndex, fromParent1Genes[geneCycleIndex]);
toOffspring2.ReplaceGene(geneCycleIndex, fromParent2Genes[geneCycleIndex]);
}
}
/// <summary>
/// Creates the cycle recursively.
/// </summary>
/// <param name="parent1Genes">The parent one's genes.</param>
/// <param name="parent2Genes">The parent two's genes.</param>
/// <param name="geneIndex">The current gene index.</param>
/// <param name="cycle">The cycle.</param>
private void CreateCycle(Gene[] parent1Genes, Gene[] parent2Genes, int geneIndex, List<int> cycle)
{
if (!cycle.Contains(geneIndex))
{
var parent2Gene = parent2Genes[geneIndex];
cycle.Add(geneIndex);
var newGeneIndex = parent1Genes.Select((g, i) => new { g.Value, Index = i }).First(g => g.Value.Equals(parent2Gene.Value));
if (geneIndex != newGeneIndex.Index)
{
CreateCycle(parent1Genes, parent2Genes, newGeneIndex.Index, cycle);
}
}
}
#endregion
}
}