1 | #region License Information
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2 | /* HeuristicLab
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3 | * Copyright (C) 2002-2016 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
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4 | *
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5 | * This file is part of HeuristicLab.
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6 | *
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7 | * HeuristicLab is free software: you can redistribute it and/or modify
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8 | * it under the terms of the GNU General Public License as published by
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9 | * the Free Software Foundation, either version 3 of the License, or
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10 | * (at your option) any later version.
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11 | *
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12 | * HeuristicLab is distributed in the hope that it will be useful,
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13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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15 | * GNU General Public License for more details.
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16 | *
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17 | * You should have received a copy of the GNU General Public License
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18 | * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
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19 | */
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20 | #endregion
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21 |
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22 | using System;
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23 | using System.Collections.Generic;
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24 | using System.Linq;
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25 | using HeuristicLab.Common;
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26 | using HeuristicLab.Core;
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27 | using HeuristicLab.Data;
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28 | using HeuristicLab.Parameters;
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29 | using HeuristicLab.Persistence;
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30 | using HeuristicLab.Random;
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31 |
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32 | namespace HeuristicLab.Encodings.SymbolicExpressionTreeEncoding {
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33 | /// <summary>
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34 | /// Takes two parent individuals P0 and P1 each. Selects a random node N0 of P0 and a random node N1 of P1.
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35 | /// And replaces the branch with root0 N0 in P0 with N1 from P1 if the tree-size limits are not violated.
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36 | /// When recombination with N0 and N1 would create a tree that is too large or invalid the operator randomly selects new N0 and N1
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37 | /// until a valid configuration is found.
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38 | /// </summary>
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39 | [Item("SubtreeSwappingCrossover", "An operator which performs subtree swapping crossover.")]
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40 | [StorableType("81301e24-b35d-45d2-a5f3-b93518c90252")]
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41 | public class SubtreeCrossover : SymbolicExpressionTreeCrossover, ISymbolicExpressionTreeSizeConstraintOperator {
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42 | private const string InternalCrossoverPointProbabilityParameterName = "InternalCrossoverPointProbability";
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43 | private const string MaximumSymbolicExpressionTreeLengthParameterName = "MaximumSymbolicExpressionTreeLength";
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44 | private const string MaximumSymbolicExpressionTreeDepthParameterName = "MaximumSymbolicExpressionTreeDepth";
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45 |
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46 | #region Parameter Properties
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47 | public IValueLookupParameter<PercentValue> InternalCrossoverPointProbabilityParameter {
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48 | get { return (IValueLookupParameter<PercentValue>)Parameters[InternalCrossoverPointProbabilityParameterName]; }
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49 | }
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50 | public IValueLookupParameter<IntValue> MaximumSymbolicExpressionTreeLengthParameter {
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51 | get { return (IValueLookupParameter<IntValue>)Parameters[MaximumSymbolicExpressionTreeLengthParameterName]; }
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52 | }
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53 | public IValueLookupParameter<IntValue> MaximumSymbolicExpressionTreeDepthParameter {
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54 | get { return (IValueLookupParameter<IntValue>)Parameters[MaximumSymbolicExpressionTreeDepthParameterName]; }
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55 | }
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56 | #endregion
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57 | #region Properties
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58 | public PercentValue InternalCrossoverPointProbability {
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59 | get { return InternalCrossoverPointProbabilityParameter.ActualValue; }
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60 | }
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61 | public IntValue MaximumSymbolicExpressionTreeLength {
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62 | get { return MaximumSymbolicExpressionTreeLengthParameter.ActualValue; }
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63 | }
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64 | public IntValue MaximumSymbolicExpressionTreeDepth {
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65 | get { return MaximumSymbolicExpressionTreeDepthParameter.ActualValue; }
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66 | }
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67 | #endregion
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68 | [StorableConstructor]
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69 | protected SubtreeCrossover(bool deserializing) : base(deserializing) { }
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70 | protected SubtreeCrossover(SubtreeCrossover original, Cloner cloner) : base(original, cloner) { }
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71 | public SubtreeCrossover()
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72 | : base() {
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73 | Parameters.Add(new ValueLookupParameter<IntValue>(MaximumSymbolicExpressionTreeLengthParameterName, "The maximal length (number of nodes) of the symbolic expression tree."));
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74 | Parameters.Add(new ValueLookupParameter<IntValue>(MaximumSymbolicExpressionTreeDepthParameterName, "The maximal depth of the symbolic expression tree (a tree with one node has depth = 0)."));
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75 | Parameters.Add(new ValueLookupParameter<PercentValue>(InternalCrossoverPointProbabilityParameterName, "The probability to select an internal crossover point (instead of a leaf node).", new PercentValue(0.9)));
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76 | }
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77 |
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78 | public override IDeepCloneable Clone(Cloner cloner) {
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79 | return new SubtreeCrossover(this, cloner);
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80 | }
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81 |
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82 | public override ISymbolicExpressionTree Crossover(IRandom random,
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83 | ISymbolicExpressionTree parent0, ISymbolicExpressionTree parent1) {
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84 | return Cross(random, parent0, parent1, InternalCrossoverPointProbability.Value,
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85 | MaximumSymbolicExpressionTreeLength.Value, MaximumSymbolicExpressionTreeDepth.Value);
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86 | }
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87 |
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88 | public static ISymbolicExpressionTree Cross(IRandom random,
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89 | ISymbolicExpressionTree parent0, ISymbolicExpressionTree parent1,
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90 | double internalCrossoverPointProbability, int maxTreeLength, int maxTreeDepth) {
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91 | // select a random crossover point in the first parent
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92 | CutPoint crossoverPoint0;
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93 | SelectCrossoverPoint(random, parent0, internalCrossoverPointProbability, maxTreeLength, maxTreeDepth, out crossoverPoint0);
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94 |
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95 | int childLength = crossoverPoint0.Child != null ? crossoverPoint0.Child.GetLength() : 0;
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96 | // calculate the max length and depth that the inserted branch can have
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97 | int maxInsertedBranchLength = Math.Max(0, maxTreeLength - (parent0.Length - childLength));
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98 | int maxInsertedBranchDepth = Math.Max(0, maxTreeDepth - parent0.Root.GetBranchLevel(crossoverPoint0.Parent));
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99 |
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100 | List<ISymbolicExpressionTreeNode> allowedBranches = new List<ISymbolicExpressionTreeNode>();
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101 | parent1.Root.ForEachNodePostfix((n) => {
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102 | if (n.GetLength() <= maxInsertedBranchLength &&
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103 | n.GetDepth() <= maxInsertedBranchDepth && crossoverPoint0.IsMatchingPointType(n))
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104 | allowedBranches.Add(n);
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105 | });
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106 | // empty branch
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107 | if (crossoverPoint0.IsMatchingPointType(null)) allowedBranches.Add(null);
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108 |
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109 | if (allowedBranches.Count == 0) {
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110 | return parent0;
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111 | } else {
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112 | var selectedBranch = SelectRandomBranch(random, allowedBranches, internalCrossoverPointProbability);
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113 | if (selectedBranch != null)
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114 | selectedBranch = (ISymbolicExpressionTreeNode)selectedBranch.Clone();
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115 |
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116 | if (crossoverPoint0.Child != null) {
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117 | // manipulate the tree of parent0 in place
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118 | // replace the branch in tree0 with the selected branch from tree1
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119 | crossoverPoint0.Parent.RemoveSubtree(crossoverPoint0.ChildIndex);
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120 | if (selectedBranch != null) {
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121 | crossoverPoint0.Parent.InsertSubtree(crossoverPoint0.ChildIndex, selectedBranch);
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122 | }
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123 | } else {
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124 | // child is null (additional child should be added under the parent)
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125 | if (selectedBranch != null) {
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126 | crossoverPoint0.Parent.AddSubtree(selectedBranch);
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127 | }
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128 | }
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129 | return parent0;
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130 | }
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131 | }
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132 |
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133 | private static void SelectCrossoverPoint(IRandom random, ISymbolicExpressionTree parent0, double internalNodeProbability, int maxBranchLength, int maxBranchDepth, out CutPoint crossoverPoint) {
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134 | if (internalNodeProbability < 0.0 || internalNodeProbability > 1.0) throw new ArgumentException("internalNodeProbability");
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135 | List<CutPoint> internalCrossoverPoints = new List<CutPoint>();
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136 | List<CutPoint> leafCrossoverPoints = new List<CutPoint>();
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137 | parent0.Root.ForEachNodePostfix((n) => {
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138 | if (n.SubtreeCount > 0 && n != parent0.Root) {
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139 | //avoid linq to reduce memory pressure
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140 | for (int i = 0; i < n.SubtreeCount; i++) {
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141 | var child = n.GetSubtree(i);
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142 | if (child.GetLength() <= maxBranchLength &&
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143 | child.GetDepth() <= maxBranchDepth) {
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144 | if (child.SubtreeCount > 0)
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145 | internalCrossoverPoints.Add(new CutPoint(n, child));
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146 | else
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147 | leafCrossoverPoints.Add(new CutPoint(n, child));
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148 | }
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149 | }
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150 |
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151 | // add one additional extension point if the number of sub trees for the symbol is not full
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152 | if (n.SubtreeCount < n.Grammar.GetMaximumSubtreeCount(n.Symbol)) {
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153 | // empty extension point
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154 | internalCrossoverPoints.Add(new CutPoint(n, n.SubtreeCount));
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155 | }
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156 | }
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157 | }
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158 | );
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159 |
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160 | if (random.NextDouble() < internalNodeProbability) {
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161 | // select from internal node if possible
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162 | if (internalCrossoverPoints.Count > 0) {
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163 | // select internal crossover point or leaf
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164 | crossoverPoint = internalCrossoverPoints[random.Next(internalCrossoverPoints.Count)];
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165 | } else {
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166 | // otherwise select external node
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167 | crossoverPoint = leafCrossoverPoints[random.Next(leafCrossoverPoints.Count)];
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168 | }
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169 | } else if (leafCrossoverPoints.Count > 0) {
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170 | // select from leaf crossover point if possible
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171 | crossoverPoint = leafCrossoverPoints[random.Next(leafCrossoverPoints.Count)];
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172 | } else {
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173 | // otherwise select internal crossover point
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174 | crossoverPoint = internalCrossoverPoints[random.Next(internalCrossoverPoints.Count)];
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175 | }
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176 | }
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177 |
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178 | private static ISymbolicExpressionTreeNode SelectRandomBranch(IRandom random, IEnumerable<ISymbolicExpressionTreeNode> branches, double internalNodeProbability) {
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179 | if (internalNodeProbability < 0.0 || internalNodeProbability > 1.0) throw new ArgumentException("internalNodeProbability");
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180 | List<ISymbolicExpressionTreeNode> allowedInternalBranches;
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181 | List<ISymbolicExpressionTreeNode> allowedLeafBranches;
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182 | if (random.NextDouble() < internalNodeProbability) {
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183 | // select internal node if possible
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184 | allowedInternalBranches = (from branch in branches
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185 | where branch != null && branch.SubtreeCount > 0
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186 | select branch).ToList();
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187 | if (allowedInternalBranches.Count > 0) {
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188 | return allowedInternalBranches.SampleRandom(random);
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189 |
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190 | } else {
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191 | // no internal nodes allowed => select leaf nodes
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192 | allowedLeafBranches = (from branch in branches
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193 | where branch == null || branch.SubtreeCount == 0
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194 | select branch).ToList();
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195 | return allowedLeafBranches.SampleRandom(random);
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196 | }
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197 | } else {
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198 | // select leaf node if possible
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199 | allowedLeafBranches = (from branch in branches
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200 | where branch == null || branch.SubtreeCount == 0
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201 | select branch).ToList();
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202 | if (allowedLeafBranches.Count > 0) {
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203 | return allowedLeafBranches.SampleRandom(random);
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204 | } else {
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205 | allowedInternalBranches = (from branch in branches
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206 | where branch != null && branch.SubtreeCount > 0
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207 | select branch).ToList();
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208 | return allowedInternalBranches.SampleRandom(random);
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209 |
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210 | }
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211 | }
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212 | }
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213 | }
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214 | }
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