1 | #region License Information
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2 | /* HeuristicLab
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3 | * Copyright (C) 2002-2019 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.Encodings.SymbolicExpressionTreeEncoding;
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29 | using HeuristicLab.Parameters;
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30 | using HEAL.Attic;
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31 |
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32 | namespace HeuristicLab.Problems.DataAnalysis.Symbolic {
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33 | [StorableType("EF325166-E03A-44C4-83CE-7F07B836285E")]
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34 | [Item("SymbolicDataAnalysisExpressionTreeLinearInterpreter", "Fast linear (non-recursive) interpreter for symbolic expression trees. Does not support ADFs.")]
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35 | public sealed class SymbolicDataAnalysisExpressionTreeLinearInterpreter : ParameterizedNamedItem, ISymbolicDataAnalysisExpressionTreeInterpreter {
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36 | private const string CheckExpressionsWithIntervalArithmeticParameterName = "CheckExpressionsWithIntervalArithmetic";
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37 | private const string CheckExpressionsWithIntervalArithmeticParameterDescription = "Switch that determines if the interpreter checks the validity of expressions with interval arithmetic before evaluating the expression.";
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38 | private const string EvaluatedSolutionsParameterName = "EvaluatedSolutions";
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39 |
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40 | private readonly SymbolicDataAnalysisExpressionTreeInterpreter interpreter;
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41 |
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42 | public override bool CanChangeName {
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43 | get { return false; }
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44 | }
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45 |
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46 | public override bool CanChangeDescription {
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47 | get { return false; }
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48 | }
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49 |
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50 | #region parameter properties
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51 | public IFixedValueParameter<BoolValue> CheckExpressionsWithIntervalArithmeticParameter {
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52 | get { return (IFixedValueParameter<BoolValue>)Parameters[CheckExpressionsWithIntervalArithmeticParameterName]; }
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53 | }
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54 |
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55 | public IFixedValueParameter<IntValue> EvaluatedSolutionsParameter {
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56 | get { return (IFixedValueParameter<IntValue>)Parameters[EvaluatedSolutionsParameterName]; }
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57 | }
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58 | #endregion
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59 |
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60 | #region properties
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61 | public bool CheckExpressionsWithIntervalArithmetic {
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62 | get { return CheckExpressionsWithIntervalArithmeticParameter.Value.Value; }
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63 | set { CheckExpressionsWithIntervalArithmeticParameter.Value.Value = value; }
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64 | }
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65 | public int EvaluatedSolutions {
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66 | get { return EvaluatedSolutionsParameter.Value.Value; }
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67 | set { EvaluatedSolutionsParameter.Value.Value = value; }
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68 | }
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69 | #endregion
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70 |
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71 | [StorableConstructor]
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72 | private SymbolicDataAnalysisExpressionTreeLinearInterpreter(StorableConstructorFlag _) : base(_) {
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73 | interpreter = new SymbolicDataAnalysisExpressionTreeInterpreter();
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74 | }
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75 |
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76 | private SymbolicDataAnalysisExpressionTreeLinearInterpreter(SymbolicDataAnalysisExpressionTreeLinearInterpreter original, Cloner cloner)
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77 | : base(original, cloner) {
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78 | interpreter = cloner.Clone(original.interpreter);
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79 | }
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80 |
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81 | public override IDeepCloneable Clone(Cloner cloner) {
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82 | return new SymbolicDataAnalysisExpressionTreeLinearInterpreter(this, cloner);
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83 | }
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84 |
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85 | public SymbolicDataAnalysisExpressionTreeLinearInterpreter()
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86 | : base("SymbolicDataAnalysisExpressionTreeLinearInterpreter", "Linear (non-recursive) interpreter for symbolic expression trees (does not support ADFs).") {
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87 | Parameters.Add(new FixedValueParameter<BoolValue>(CheckExpressionsWithIntervalArithmeticParameterName, CheckExpressionsWithIntervalArithmeticParameterDescription, new BoolValue(false)));
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88 | Parameters.Add(new FixedValueParameter<IntValue>(EvaluatedSolutionsParameterName, "A counter for the total number of solutions the interpreter has evaluated", new IntValue(0)));
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89 | interpreter = new SymbolicDataAnalysisExpressionTreeInterpreter();
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90 | }
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91 |
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92 | public SymbolicDataAnalysisExpressionTreeLinearInterpreter(string name, string description)
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93 | : base(name, description) {
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94 | Parameters.Add(new FixedValueParameter<BoolValue>(CheckExpressionsWithIntervalArithmeticParameterName, CheckExpressionsWithIntervalArithmeticParameterDescription, new BoolValue(false)));
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95 | Parameters.Add(new FixedValueParameter<IntValue>(EvaluatedSolutionsParameterName, "A counter for the total number of solutions the interpreter has evaluated", new IntValue(0)));
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96 | interpreter = new SymbolicDataAnalysisExpressionTreeInterpreter();
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97 | }
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98 |
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99 | [StorableHook(HookType.AfterDeserialization)]
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100 | private void AfterDeserialization() {
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101 | var evaluatedSolutions = new IntValue(0);
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102 | var checkExpressionsWithIntervalArithmetic = new BoolValue(false);
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103 | if (Parameters.ContainsKey(EvaluatedSolutionsParameterName)) {
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104 | var evaluatedSolutionsParameter = (IValueParameter<IntValue>)Parameters[EvaluatedSolutionsParameterName];
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105 | evaluatedSolutions = evaluatedSolutionsParameter.Value;
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106 | Parameters.Remove(EvaluatedSolutionsParameterName);
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107 | }
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108 | Parameters.Add(new FixedValueParameter<IntValue>(EvaluatedSolutionsParameterName, "A counter for the total number of solutions the interpreter has evaluated", evaluatedSolutions));
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109 | if (Parameters.ContainsKey(CheckExpressionsWithIntervalArithmeticParameterName)) {
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110 | var checkExpressionsWithIntervalArithmeticParameter = (IValueParameter<BoolValue>)Parameters[CheckExpressionsWithIntervalArithmeticParameterName];
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111 | Parameters.Remove(CheckExpressionsWithIntervalArithmeticParameterName);
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112 | checkExpressionsWithIntervalArithmetic = checkExpressionsWithIntervalArithmeticParameter.Value;
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113 | }
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114 | Parameters.Add(new FixedValueParameter<BoolValue>(CheckExpressionsWithIntervalArithmeticParameterName, CheckExpressionsWithIntervalArithmeticParameterDescription, checkExpressionsWithIntervalArithmetic));
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115 | }
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116 |
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117 | #region IStatefulItem
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118 | public void InitializeState() {
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119 | EvaluatedSolutions = 0;
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120 | }
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121 |
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122 | public void ClearState() { }
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123 | #endregion
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124 |
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125 | private readonly object syncRoot = new object();
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126 | public IEnumerable<double> GetSymbolicExpressionTreeValues(ISymbolicExpressionTree tree, IDataset dataset, IEnumerable<int> rows) {
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127 | if (!rows.Any()) return Enumerable.Empty<double>();
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128 | if (CheckExpressionsWithIntervalArithmetic)
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129 | throw new NotSupportedException("Interval arithmetic is not yet supported in the symbolic data analysis interpreter.");
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130 |
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131 | lock (syncRoot) {
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132 | EvaluatedSolutions++; // increment the evaluated solutions counter
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133 | }
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134 |
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135 | var code = SymbolicExpressionTreeLinearCompiler.Compile(tree, OpCodes.MapSymbolToOpCode);
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136 | PrepareInstructions(code, dataset);
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137 | return rows.Select(row => Evaluate(dataset, row, code));
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138 | }
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139 |
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140 | private double Evaluate(IDataset dataset, int row, LinearInstruction[] code) {
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141 | for (int i = code.Length - 1; i >= 0; --i) {
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142 | if (code[i].skip) continue;
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143 | #region opcode if
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144 | var instr = code[i];
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145 | if (instr.opCode == OpCodes.Variable) {
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146 | if (row < 0 || row >= dataset.Rows) instr.value = double.NaN;
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147 | else {
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148 | var variableTreeNode = (VariableTreeNode)instr.dynamicNode;
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149 | instr.value = ((IList<double>)instr.data)[row] * variableTreeNode.Weight;
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150 | }
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151 | } else if (instr.opCode == OpCodes.BinaryFactorVariable) {
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152 | if (row < 0 || row >= dataset.Rows) instr.value = double.NaN;
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153 | else {
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154 | var factorTreeNode = instr.dynamicNode as BinaryFactorVariableTreeNode;
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155 | instr.value = ((IList<string>)instr.data)[row] == factorTreeNode.VariableValue ? factorTreeNode.Weight : 0;
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156 | }
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157 | } else if (instr.opCode == OpCodes.FactorVariable) {
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158 | if (row < 0 || row >= dataset.Rows) instr.value = double.NaN;
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159 | else {
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160 | var factorTreeNode = instr.dynamicNode as FactorVariableTreeNode;
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161 | instr.value = factorTreeNode.GetValue(((IList<string>)instr.data)[row]);
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162 | }
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163 | } else if (instr.opCode == OpCodes.LagVariable) {
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164 | var laggedVariableTreeNode = (LaggedVariableTreeNode)instr.dynamicNode;
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165 | int actualRow = row + laggedVariableTreeNode.Lag;
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166 | if (actualRow < 0 || actualRow >= dataset.Rows)
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167 | instr.value = double.NaN;
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168 | else
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169 | instr.value = ((IList<double>)instr.data)[actualRow] * laggedVariableTreeNode.Weight;
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170 | } else if (instr.opCode == OpCodes.VariableCondition) {
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171 | if (row < 0 || row >= dataset.Rows) instr.value = double.NaN;
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172 | var variableConditionTreeNode = (VariableConditionTreeNode)instr.dynamicNode;
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173 | if (!variableConditionTreeNode.Symbol.IgnoreSlope) {
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174 | double variableValue = ((IList<double>)instr.data)[row];
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175 | double x = variableValue - variableConditionTreeNode.Threshold;
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176 | double p = 1 / (1 + Math.Exp(-variableConditionTreeNode.Slope * x));
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177 |
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178 | double trueBranch = code[instr.childIndex].value;
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179 | double falseBranch = code[instr.childIndex + 1].value;
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180 |
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181 | instr.value = trueBranch * p + falseBranch * (1 - p);
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182 | } else {
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183 | double variableValue = ((IList<double>)instr.data)[row];
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184 | if (variableValue <= variableConditionTreeNode.Threshold) {
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185 | instr.value = code[instr.childIndex].value;
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186 | } else {
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187 | instr.value = code[instr.childIndex + 1].value;
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188 | }
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189 | }
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190 | } else if (instr.opCode == OpCodes.Add) {
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191 | double s = code[instr.childIndex].value;
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192 | for (int j = 1; j != instr.nArguments; ++j) {
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193 | s += code[instr.childIndex + j].value;
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194 | }
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195 | instr.value = s;
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196 | } else if (instr.opCode == OpCodes.Sub) {
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197 | double s = code[instr.childIndex].value;
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198 | for (int j = 1; j != instr.nArguments; ++j) {
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199 | s -= code[instr.childIndex + j].value;
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200 | }
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201 | if (instr.nArguments == 1) s = -s;
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202 | instr.value = s;
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203 | } else if (instr.opCode == OpCodes.Mul) {
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204 | double p = code[instr.childIndex].value;
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205 | for (int j = 1; j != instr.nArguments; ++j) {
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206 | p *= code[instr.childIndex + j].value;
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207 | }
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208 | instr.value = p;
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209 | } else if (instr.opCode == OpCodes.Div) {
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210 | double p = code[instr.childIndex].value;
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211 | for (int j = 1; j != instr.nArguments; ++j) {
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212 | p /= code[instr.childIndex + j].value;
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213 | }
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214 | if (instr.nArguments == 1) p = 1.0 / p;
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215 | instr.value = p;
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216 | } else if (instr.opCode == OpCodes.AnalyticQuotient) {
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217 | var x1 = code[instr.childIndex].value;
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218 | var x2 = code[instr.childIndex + 1].value;
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219 | instr.value = x1 / Math.Sqrt(1 + x2 * x2);
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220 | } else if (instr.opCode == OpCodes.Average) {
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221 | double s = code[instr.childIndex].value;
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222 | for (int j = 1; j != instr.nArguments; ++j) {
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223 | s += code[instr.childIndex + j].value;
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224 | }
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225 | instr.value = s / instr.nArguments;
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226 | } else if (instr.opCode == OpCodes.Absolute) {
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227 | instr.value = Math.Abs(code[instr.childIndex].value);
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228 | } else if (instr.opCode == OpCodes.Tanh) {
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229 | instr.value = Math.Tanh(code[instr.childIndex].value);
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230 | } else if (instr.opCode == OpCodes.Cos) {
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231 | instr.value = Math.Cos(code[instr.childIndex].value);
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232 | } else if (instr.opCode == OpCodes.Sin) {
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233 | instr.value = Math.Sin(code[instr.childIndex].value);
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234 | } else if (instr.opCode == OpCodes.Tan) {
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235 | instr.value = Math.Tan(code[instr.childIndex].value);
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236 | } else if (instr.opCode == OpCodes.Square) {
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237 | instr.value = Math.Pow(code[instr.childIndex].value, 2);
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238 | } else if (instr.opCode == OpCodes.Cube) {
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239 | instr.value = Math.Pow(code[instr.childIndex].value, 3);
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240 | } else if (instr.opCode == OpCodes.Power) {
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241 | double x = code[instr.childIndex].value;
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242 | double y = Math.Round(code[instr.childIndex + 1].value);
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243 | instr.value = Math.Pow(x, y);
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244 | } else if (instr.opCode == OpCodes.SquareRoot) {
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245 | instr.value = Math.Sqrt(code[instr.childIndex].value);
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246 | } else if (instr.opCode == OpCodes.CubeRoot) {
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247 | instr.value = Math.Pow(code[instr.childIndex].value, 1.0 / 3.0);
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248 | } else if (instr.opCode == OpCodes.Root) {
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249 | double x = code[instr.childIndex].value;
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250 | double y = Math.Round(code[instr.childIndex + 1].value);
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251 | instr.value = Math.Pow(x, 1 / y);
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252 | } else if (instr.opCode == OpCodes.Exp) {
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253 | instr.value = Math.Exp(code[instr.childIndex].value);
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254 | } else if (instr.opCode == OpCodes.Log) {
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255 | instr.value = Math.Log(code[instr.childIndex].value);
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256 | } else if (instr.opCode == OpCodes.Gamma) {
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257 | var x = code[instr.childIndex].value;
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258 | instr.value = double.IsNaN(x) ? double.NaN : alglib.gammafunction(x);
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259 | } else if (instr.opCode == OpCodes.Psi) {
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260 | var x = code[instr.childIndex].value;
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261 | if (double.IsNaN(x)) instr.value = double.NaN;
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262 | else if (x <= 0 && (Math.Floor(x) - x).IsAlmost(0)) instr.value = double.NaN;
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263 | else instr.value = alglib.psi(x);
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264 | } else if (instr.opCode == OpCodes.Dawson) {
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265 | var x = code[instr.childIndex].value;
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266 | instr.value = double.IsNaN(x) ? double.NaN : alglib.dawsonintegral(x);
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267 | } else if (instr.opCode == OpCodes.ExponentialIntegralEi) {
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268 | var x = code[instr.childIndex].value;
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269 | instr.value = double.IsNaN(x) ? double.NaN : alglib.exponentialintegralei(x);
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270 | } else if (instr.opCode == OpCodes.SineIntegral) {
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271 | double si, ci;
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272 | var x = code[instr.childIndex].value;
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273 | if (double.IsNaN(x)) instr.value = double.NaN;
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274 | else {
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275 | alglib.sinecosineintegrals(x, out si, out ci);
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276 | instr.value = si;
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277 | }
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278 | } else if (instr.opCode == OpCodes.CosineIntegral) {
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279 | double si, ci;
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280 | var x = code[instr.childIndex].value;
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281 | if (double.IsNaN(x)) instr.value = double.NaN;
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282 | else {
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283 | alglib.sinecosineintegrals(x, out si, out ci);
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284 | instr.value = ci;
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285 | }
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286 | } else if (instr.opCode == OpCodes.HyperbolicSineIntegral) {
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287 | double shi, chi;
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288 | var x = code[instr.childIndex].value;
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289 | if (double.IsNaN(x)) instr.value = double.NaN;
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290 | else {
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291 | alglib.hyperbolicsinecosineintegrals(x, out shi, out chi);
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292 | instr.value = shi;
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293 | }
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294 | } else if (instr.opCode == OpCodes.HyperbolicCosineIntegral) {
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295 | double shi, chi;
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296 | var x = code[instr.childIndex].value;
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297 | if (double.IsNaN(x)) instr.value = double.NaN;
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298 | else {
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299 | alglib.hyperbolicsinecosineintegrals(x, out shi, out chi);
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300 | instr.value = chi;
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301 | }
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302 | } else if (instr.opCode == OpCodes.FresnelCosineIntegral) {
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303 | double c = 0, s = 0;
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304 | var x = code[instr.childIndex].value;
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305 | if (double.IsNaN(x)) instr.value = double.NaN;
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306 | else {
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307 | alglib.fresnelintegral(x, ref c, ref s);
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308 | instr.value = c;
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309 | }
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310 | } else if (instr.opCode == OpCodes.FresnelSineIntegral) {
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311 | double c = 0, s = 0;
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312 | var x = code[instr.childIndex].value;
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313 | if (double.IsNaN(x)) instr.value = double.NaN;
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314 | else {
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315 | alglib.fresnelintegral(x, ref c, ref s);
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316 | instr.value = s;
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317 | }
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318 | } else if (instr.opCode == OpCodes.AiryA) {
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319 | double ai, aip, bi, bip;
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320 | var x = code[instr.childIndex].value;
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321 | if (double.IsNaN(x)) instr.value = double.NaN;
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322 | else {
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323 | alglib.airy(x, out ai, out aip, out bi, out bip);
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324 | instr.value = ai;
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325 | }
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326 | } else if (instr.opCode == OpCodes.AiryB) {
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327 | double ai, aip, bi, bip;
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328 | var x = code[instr.childIndex].value;
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329 | if (double.IsNaN(x)) instr.value = double.NaN;
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330 | else {
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331 | alglib.airy(x, out ai, out aip, out bi, out bip);
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332 | instr.value = bi;
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333 | }
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334 | } else if (instr.opCode == OpCodes.Norm) {
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335 | var x = code[instr.childIndex].value;
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336 | if (double.IsNaN(x)) instr.value = double.NaN;
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337 | else instr.value = alglib.normaldistribution(x);
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338 | } else if (instr.opCode == OpCodes.Erf) {
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339 | var x = code[instr.childIndex].value;
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340 | if (double.IsNaN(x)) instr.value = double.NaN;
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341 | else instr.value = alglib.errorfunction(x);
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342 | } else if (instr.opCode == OpCodes.Bessel) {
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343 | var x = code[instr.childIndex].value;
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344 | if (double.IsNaN(x)) instr.value = double.NaN;
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345 | else instr.value = alglib.besseli0(x);
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346 | } else if (instr.opCode == OpCodes.IfThenElse) {
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347 | double condition = code[instr.childIndex].value;
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348 | double result;
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349 | if (condition > 0.0) {
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350 | result = code[instr.childIndex + 1].value;
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351 | } else {
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352 | result = code[instr.childIndex + 2].value;
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353 | }
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354 | instr.value = result;
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355 | } else if (instr.opCode == OpCodes.AND) {
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356 | double result = code[instr.childIndex].value;
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357 | for (int j = 1; j < instr.nArguments; j++) {
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358 | if (result > 0.0) result = code[instr.childIndex + j].value;
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359 | else break;
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360 | }
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361 | instr.value = result > 0.0 ? 1.0 : -1.0;
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362 | } else if (instr.opCode == OpCodes.OR) {
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363 | double result = code[instr.childIndex].value;
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364 | for (int j = 1; j < instr.nArguments; j++) {
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365 | if (result <= 0.0) result = code[instr.childIndex + j].value;
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366 | else break;
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367 | }
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368 | instr.value = result > 0.0 ? 1.0 : -1.0;
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369 | } else if (instr.opCode == OpCodes.NOT) {
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370 | instr.value = code[instr.childIndex].value > 0.0 ? -1.0 : 1.0;
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371 | } else if (instr.opCode == OpCodes.XOR) {
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372 | int positiveSignals = 0;
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373 | for (int j = 0; j < instr.nArguments; j++) {
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374 | if (code[instr.childIndex + j].value > 0.0) positiveSignals++;
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375 | }
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376 | instr.value = positiveSignals % 2 != 0 ? 1.0 : -1.0;
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377 | } else if (instr.opCode == OpCodes.GT) {
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378 | double x = code[instr.childIndex].value;
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379 | double y = code[instr.childIndex + 1].value;
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380 | instr.value = x > y ? 1.0 : -1.0;
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381 | } else if (instr.opCode == OpCodes.LT) {
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382 | double x = code[instr.childIndex].value;
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383 | double y = code[instr.childIndex + 1].value;
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384 | instr.value = x < y ? 1.0 : -1.0;
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385 | } else if (instr.opCode == OpCodes.TimeLag || instr.opCode == OpCodes.Derivative || instr.opCode == OpCodes.Integral) {
|
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386 | var state = (InterpreterState)instr.data;
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387 | state.Reset();
|
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388 | instr.value = interpreter.Evaluate(dataset, ref row, state);
|
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389 | } else {
|
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390 | var errorText = string.Format("The {0} symbol is not supported by the linear interpreter. To support this symbol, please use the SymbolicDataAnalysisExpressionTreeInterpreter.", instr.dynamicNode.Symbol.Name);
|
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391 | throw new NotSupportedException(errorText);
|
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392 | }
|
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393 | #endregion
|
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394 | }
|
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395 | return code[0].value;
|
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396 | }
|
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397 |
|
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398 | private static LinearInstruction[] GetPrefixSequence(LinearInstruction[] code, int startIndex) {
|
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399 | var s = new Stack<int>();
|
---|
400 | var list = new List<LinearInstruction>();
|
---|
401 | s.Push(startIndex);
|
---|
402 | while (s.Any()) {
|
---|
403 | int i = s.Pop();
|
---|
404 | var instr = code[i];
|
---|
405 | // push instructions in reverse execution order
|
---|
406 | for (int j = instr.nArguments - 1; j >= 0; j--) s.Push(instr.childIndex + j);
|
---|
407 | list.Add(instr);
|
---|
408 | }
|
---|
409 | return list.ToArray();
|
---|
410 | }
|
---|
411 |
|
---|
412 | public static void PrepareInstructions(LinearInstruction[] code, IDataset dataset) {
|
---|
413 | for (int i = 0; i != code.Length; ++i) {
|
---|
414 | var instr = code[i];
|
---|
415 | #region opcode switch
|
---|
416 | switch (instr.opCode) {
|
---|
417 | case OpCodes.Constant: {
|
---|
418 | var constTreeNode = (ConstantTreeNode)instr.dynamicNode;
|
---|
419 | instr.value = constTreeNode.Value;
|
---|
420 | instr.skip = true; // the value is already set so this instruction should be skipped in the evaluation phase
|
---|
421 | }
|
---|
422 | break;
|
---|
423 | case OpCodes.Variable: {
|
---|
424 | var variableTreeNode = (VariableTreeNode)instr.dynamicNode;
|
---|
425 | instr.data = dataset.GetReadOnlyDoubleValues(variableTreeNode.VariableName);
|
---|
426 | }
|
---|
427 | break;
|
---|
428 | case OpCodes.BinaryFactorVariable: {
|
---|
429 | var factorVariableTreeNode = instr.dynamicNode as BinaryFactorVariableTreeNode;
|
---|
430 | instr.data = dataset.GetReadOnlyStringValues(factorVariableTreeNode.VariableName);
|
---|
431 | }
|
---|
432 | break;
|
---|
433 | case OpCodes.FactorVariable: {
|
---|
434 | var factorVariableTreeNode = instr.dynamicNode as FactorVariableTreeNode;
|
---|
435 | instr.data = dataset.GetReadOnlyStringValues(factorVariableTreeNode.VariableName);
|
---|
436 | }
|
---|
437 | break;
|
---|
438 | case OpCodes.LagVariable: {
|
---|
439 | var laggedVariableTreeNode = (LaggedVariableTreeNode)instr.dynamicNode;
|
---|
440 | instr.data = dataset.GetReadOnlyDoubleValues(laggedVariableTreeNode.VariableName);
|
---|
441 | }
|
---|
442 | break;
|
---|
443 | case OpCodes.VariableCondition: {
|
---|
444 | var variableConditionTreeNode = (VariableConditionTreeNode)instr.dynamicNode;
|
---|
445 | instr.data = dataset.GetReadOnlyDoubleValues(variableConditionTreeNode.VariableName);
|
---|
446 | }
|
---|
447 | break;
|
---|
448 | case OpCodes.TimeLag:
|
---|
449 | case OpCodes.Integral:
|
---|
450 | case OpCodes.Derivative: {
|
---|
451 | var seq = GetPrefixSequence(code, i);
|
---|
452 | var interpreterState = new InterpreterState(seq, 0);
|
---|
453 | instr.data = interpreterState;
|
---|
454 | for (int j = 1; j != seq.Length; ++j)
|
---|
455 | seq[j].skip = true;
|
---|
456 | break;
|
---|
457 | }
|
---|
458 | }
|
---|
459 | #endregion
|
---|
460 | }
|
---|
461 | }
|
---|
462 | }
|
---|
463 | }
|
---|