[12590] | 1 | #region License Information
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| 2 | /* HeuristicLab
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| 3 | * Copyright (C) 2002-2015 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
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| 4 | * and the BEACON Center for the Study of Evolution in Action.
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| 5 | *
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| 6 | * This file is part of HeuristicLab.
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| 7 | *
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| 8 | * HeuristicLab is free software: you can redistribute it and/or modify
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| 9 | * it under the terms of the GNU General Public License as published by
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| 10 | * the Free Software Foundation, either version 3 of the License, or
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| 11 | * (at your option) any later version.
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| 12 | *
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| 13 | * HeuristicLab is distributed in the hope that it will be useful,
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| 14 | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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| 15 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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| 16 | * GNU General Public License for more details.
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| 17 | *
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| 18 | * You should have received a copy of the GNU General Public License
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| 19 | * along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
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| 20 | */
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| 21 | #endregion
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| 22 |
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[12658] | 23 | using System;
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[12372] | 24 | using System.Collections.Generic;
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[14029] | 25 | using System.Collections.ObjectModel;
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[12658] | 26 | using System.Globalization;
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[12332] | 27 | using System.Linq;
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| 28 | using HeuristicLab.Common;
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| 29 | using HeuristicLab.Core;
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| 30 | using HeuristicLab.Persistence.Default.CompositeSerializers.Storable;
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| 31 | using HeuristicLab.Problems.DataAnalysis;
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| 32 |
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[12590] | 33 | namespace HeuristicLab.Algorithms.DataAnalysis {
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[12332] | 34 | [StorableClass]
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| 35 | [Item("RegressionTreeModel", "Represents a decision tree for regression.")]
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[14029] | 36 | public sealed class RegressionTreeModel : RegressionModel {
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| 37 | public override IEnumerable<string> VariablesUsedForPrediction {
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| 38 | get { return tree.Select(t => t.VarName).Where(v => v != TreeNode.NO_VARIABLE); }
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| 39 | }
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[12332] | 40 |
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[12699] | 41 | // trees are represented as a flat array
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[12658] | 42 | internal struct TreeNode {
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[12699] | 43 | public readonly static string NO_VARIABLE = null;
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[12332] | 44 |
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[14029] | 45 | public TreeNode(string varName, double val, int leftIdx = -1, int rightIdx = -1, double weightLeft = -1.0)
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[12658] | 46 | : this() {
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| 47 | VarName = varName;
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| 48 | Val = val;
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| 49 | LeftIdx = leftIdx;
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| 50 | RightIdx = rightIdx;
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[14029] | 51 | WeightLeft = weightLeft;
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[12658] | 52 | }
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| 53 |
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[14029] | 54 | public string VarName { get; internal set; } // name of the variable for splitting or NO_VARIABLE if terminal node
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| 55 | public double Val { get; internal set; } // threshold
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| 56 | public int LeftIdx { get; internal set; }
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| 57 | public int RightIdx { get; internal set; }
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| 58 | public double WeightLeft { get; internal set; } // for partial dependence plots (value in range [0..1] describes the fraction of training samples for the left sub-tree
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[12658] | 59 |
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[12699] | 60 |
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[12658] | 61 | // necessary because the default implementation of GetHashCode for structs in .NET would only return the hashcode of val here
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[12590] | 62 | public override int GetHashCode() {
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[12632] | 63 | return LeftIdx ^ RightIdx ^ Val.GetHashCode();
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[12372] | 64 | }
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[12658] | 65 | // necessary because of GetHashCode override
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| 66 | public override bool Equals(object obj) {
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| 67 | if (obj is TreeNode) {
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| 68 | var other = (TreeNode)obj;
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| 69 | return Val.Equals(other.Val) &&
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| 70 | LeftIdx.Equals(other.LeftIdx) &&
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[12663] | 71 | RightIdx.Equals(other.RightIdx) &&
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[14029] | 72 | WeightLeft.Equals(other.WeightLeft) &&
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[12663] | 73 | EqualStrings(VarName, other.VarName);
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[12658] | 74 | } else {
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| 75 | return false;
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| 76 | }
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| 77 | }
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[12663] | 78 |
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| 79 | private bool EqualStrings(string a, string b) {
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| 80 | return (a == null && b == null) ||
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| 81 | (a != null && b != null && a.Equals(b));
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| 82 | }
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[12332] | 83 | }
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| 84 |
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[12699] | 85 | // not storable!
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| 86 | private TreeNode[] tree;
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| 87 |
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[14029] | 88 | #region old storable format
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| 89 | // remove with HL 3.4
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| 90 | [Storable(AllowOneWay = true)]
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[12699] | 91 | // to prevent storing the references to data caches in nodes
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[14029] | 92 | // seemingly, it is bad (performance-wise) to persist tuples (tuples are used as keys in a dictionary)
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[12699] | 93 | private Tuple<string, double, int, int>[] SerializedTree {
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[14029] | 94 | // get { return tree.Select(t => Tuple.Create(t.VarName, t.Val, t.LeftIdx, t.RightIdx)).ToArray(); }
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| 95 | set { this.tree = value.Select(t => new TreeNode(t.Item1, t.Item2, t.Item3, t.Item4, -1.0)).ToArray(); } // use a weight of -1.0 to indicate that partial dependence cannot be calculated for old models
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[12699] | 96 | }
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[14029] | 97 | #endregion
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| 98 | #region new storable format
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| 99 | [Storable]
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| 100 | private string[] SerializedTreeVarNames {
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| 101 | get { return tree.Select(t => t.VarName).ToArray(); }
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| 102 | set {
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| 103 | if (tree == null) tree = new TreeNode[value.Length];
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| 104 | for (int i = 0; i < value.Length; i++) {
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| 105 | tree[i].VarName = value[i];
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| 106 | }
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| 107 | }
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| 108 | }
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| 109 | [Storable]
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| 110 | private double[] SerializedTreeValues {
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| 111 | get { return tree.Select(t => t.Val).ToArray(); }
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| 112 | set {
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| 113 | if (tree == null) tree = new TreeNode[value.Length];
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| 114 | for (int i = 0; i < value.Length; i++) {
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| 115 | tree[i].Val = value[i];
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| 116 | }
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| 117 | }
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| 118 | }
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| 119 | [Storable]
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| 120 | private int[] SerializedTreeLeftIdx {
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| 121 | get { return tree.Select(t => t.LeftIdx).ToArray(); }
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| 122 | set {
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| 123 | if (tree == null) tree = new TreeNode[value.Length];
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| 124 | for (int i = 0; i < value.Length; i++) {
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| 125 | tree[i].LeftIdx = value[i];
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| 126 | }
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| 127 | }
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| 128 | }
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| 129 | [Storable]
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| 130 | private int[] SerializedTreeRightIdx {
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| 131 | get { return tree.Select(t => t.RightIdx).ToArray(); }
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| 132 | set {
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| 133 | if (tree == null) tree = new TreeNode[value.Length];
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| 134 | for (int i = 0; i < value.Length; i++) {
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| 135 | tree[i].RightIdx = value[i];
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| 136 | }
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| 137 | }
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| 138 | }
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| 139 | [Storable]
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| 140 | private double[] SerializedTreeWeightLeft {
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| 141 | get { return tree.Select(t => t.WeightLeft).ToArray(); }
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| 142 | set {
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| 143 | if (tree == null) tree = new TreeNode[value.Length];
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| 144 | for (int i = 0; i < value.Length; i++) {
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| 145 | tree[i].WeightLeft = value[i];
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| 146 | }
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| 147 | }
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| 148 | }
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| 149 | #endregion
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[12332] | 150 |
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| 151 | [StorableConstructor]
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| 152 | private RegressionTreeModel(bool serializing) : base(serializing) { }
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| 153 | // cloning ctor
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[12658] | 154 | private RegressionTreeModel(RegressionTreeModel original, Cloner cloner)
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[12332] | 155 | : base(original, cloner) {
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[12699] | 156 | if (original.tree != null) {
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| 157 | this.tree = new TreeNode[original.tree.Length];
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| 158 | Array.Copy(original.tree, this.tree, this.tree.Length);
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| 159 | }
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[12332] | 160 | }
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| 161 |
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[14029] | 162 | internal RegressionTreeModel(TreeNode[] tree, string targetVariable)
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| 163 | : base(targetVariable, "RegressionTreeModel", "Represents a decision tree for regression.") {
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[12332] | 164 | this.tree = tree;
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| 165 | }
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| 166 |
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[14029] | 167 | private static double GetPredictionForRow(TreeNode[] t, ReadOnlyCollection<double>[] columnCache, int nodeIdx, int row) {
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[12699] | 168 | while (nodeIdx != -1) {
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| 169 | var node = t[nodeIdx];
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| 170 | if (node.VarName == TreeNode.NO_VARIABLE)
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| 171 | return node.Val;
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[14029] | 172 | if (columnCache[nodeIdx] == null || double.IsNaN(columnCache[nodeIdx][row])) {
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| 173 | if (node.WeightLeft.IsAlmost(-1.0)) throw new InvalidOperationException("Cannot calculate partial dependence for trees loaded from older versions of HeuristicLab.");
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| 174 | // weighted average for partial dependence plot (recursive here because we need to calculate both sub-trees)
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| 175 | return node.WeightLeft * GetPredictionForRow(t, columnCache, node.LeftIdx, row) +
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| 176 | (1.0 - node.WeightLeft) * GetPredictionForRow(t, columnCache, node.RightIdx, row);
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| 177 | } else if (columnCache[nodeIdx][row] <= node.Val)
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[12699] | 178 | nodeIdx = node.LeftIdx;
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| 179 | else
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| 180 | nodeIdx = node.RightIdx;
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| 181 | }
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| 182 | throw new InvalidOperationException("Invalid tree in RegressionTreeModel");
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[12332] | 183 | }
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| 184 |
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| 185 | public override IDeepCloneable Clone(Cloner cloner) {
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| 186 | return new RegressionTreeModel(this, cloner);
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| 187 | }
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| 188 |
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[14029] | 189 | public override IEnumerable<double> GetEstimatedValues(IDataset ds, IEnumerable<int> rows) {
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[12699] | 190 | // lookup columns for variableNames in one pass over the tree to speed up evaluation later on
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[14029] | 191 | ReadOnlyCollection<double>[] columnCache = new ReadOnlyCollection<double>[tree.Length];
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| 192 |
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[12699] | 193 | for (int i = 0; i < tree.Length; i++) {
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| 194 | if (tree[i].VarName != TreeNode.NO_VARIABLE) {
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[14029] | 195 | // tree models also support calculating estimations if not all variables used for training are available in the dataset
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| 196 | if (ds.ColumnNames.Contains(tree[i].VarName))
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| 197 | columnCache[i] = ds.GetReadOnlyDoubleValues(tree[i].VarName);
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[12699] | 198 | }
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| 199 | }
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[14029] | 200 | return rows.Select(r => GetPredictionForRow(tree, columnCache, 0, r));
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[12332] | 201 | }
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| 202 |
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[14029] | 203 | public override IRegressionSolution CreateRegressionSolution(IRegressionProblemData problemData) {
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[12332] | 204 | return new RegressionSolution(this, new RegressionProblemData(problemData));
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| 205 | }
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[12658] | 206 |
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| 207 | // mainly for debugging
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| 208 | public override string ToString() {
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| 209 | return TreeToString(0, "");
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| 210 | }
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| 211 |
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| 212 | private string TreeToString(int idx, string part) {
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| 213 | var n = tree[idx];
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| 214 | if (n.VarName == TreeNode.NO_VARIABLE) {
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| 215 | return string.Format(CultureInfo.InvariantCulture, "{0} -> {1:F}{2}", part, n.Val, Environment.NewLine);
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| 216 | } else {
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| 217 | return
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[14029] | 218 | TreeToString(n.LeftIdx, string.Format(CultureInfo.InvariantCulture, "{0}{1}{2} <= {3:F} ({4:N3})", part, string.IsNullOrEmpty(part) ? "" : " and ", n.VarName, n.Val, n.WeightLeft))
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| 219 | + TreeToString(n.RightIdx, string.Format(CultureInfo.InvariantCulture, "{0}{1}{2} > {3:F} ({4:N3}))", part, string.IsNullOrEmpty(part) ? "" : " and ", n.VarName, n.Val, 1.0 - n.WeightLeft));
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[12658] | 220 | }
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| 221 | }
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[14029] | 222 |
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[12332] | 223 | }
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| 224 | }
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