[16285] | 1 | using System;
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| 2 | using System.Collections.Generic;
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| 3 | using System.Linq;
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| 4 |
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| 5 | using HeuristicLab.Common;
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| 6 | using HeuristicLab.Core;
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| 7 | using HeuristicLab.Data;
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| 8 | using HeuristicLab.Encodings.SymbolicExpressionTreeEncoding;
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| 9 | using HeuristicLab.Parameters;
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[16565] | 10 | using HEAL.Attic;
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[16285] | 11 |
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| 12 | using static HeuristicLab.Problems.DataAnalysis.Symbolic.BatchOperations;
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| 13 |
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| 14 | namespace HeuristicLab.Problems.DataAnalysis.Symbolic {
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| 15 | [Item("SymbolicDataAnalysisExpressionTreeBatchInterpreter", "An interpreter that uses batching and vectorization techniques to achieve faster performance.")]
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[16565] | 16 | [StorableType("BEB15146-BB95-4838-83AC-6838543F017B")]
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[16285] | 17 | public class SymbolicDataAnalysisExpressionTreeBatchInterpreter : ParameterizedNamedItem, ISymbolicDataAnalysisExpressionTreeInterpreter {
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| 18 | private const string EvaluatedSolutionsParameterName = "EvaluatedSolutions";
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| 19 |
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| 20 | #region parameters
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| 21 | public IFixedValueParameter<IntValue> EvaluatedSolutionsParameter {
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| 22 | get { return (IFixedValueParameter<IntValue>)Parameters[EvaluatedSolutionsParameterName]; }
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| 23 | }
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| 24 | #endregion
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| 25 |
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| 26 | #region properties
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| 27 | public int EvaluatedSolutions {
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| 28 | get { return EvaluatedSolutionsParameter.Value.Value; }
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| 29 | set { EvaluatedSolutionsParameter.Value.Value = value; }
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| 30 | }
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| 31 | #endregion
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| 32 |
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| 33 | public void ClearState() { }
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| 34 |
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| 35 | public SymbolicDataAnalysisExpressionTreeBatchInterpreter() {
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| 36 | 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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| 37 | }
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| 38 |
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| 39 | [StorableConstructor]
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[16565] | 40 | protected SymbolicDataAnalysisExpressionTreeBatchInterpreter(StorableConstructorFlag _) : base(_) { }
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[16285] | 41 | protected SymbolicDataAnalysisExpressionTreeBatchInterpreter(SymbolicDataAnalysisExpressionTreeBatchInterpreter original, Cloner cloner) : base(original, cloner) {
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| 42 | }
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| 43 | public override IDeepCloneable Clone(Cloner cloner) {
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| 44 | return new SymbolicDataAnalysisExpressionTreeBatchInterpreter(this, cloner);
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| 45 | }
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| 46 |
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| 47 | private void LoadData(BatchInstruction instr, int[] rows, int rowIndex, int batchSize) {
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| 48 | for (int i = 0; i < batchSize; ++i) {
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| 49 | var row = rows[rowIndex] + i;
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| 50 | instr.buf[i] = instr.weight * instr.data[row];
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| 51 | }
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| 52 | }
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| 53 |
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| 54 | private void Evaluate(BatchInstruction[] code, int[] rows, int rowIndex, int batchSize) {
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| 55 | for (int i = code.Length - 1; i >= 0; --i) {
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| 56 | var instr = code[i];
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| 57 | var c = instr.childIndex;
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| 58 | var n = instr.narg;
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| 59 |
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| 60 | switch (instr.opcode) {
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| 61 | case OpCodes.Variable: {
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| 62 | LoadData(instr, rows, rowIndex, batchSize);
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| 63 | break;
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| 64 | }
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[16768] | 65 | case OpCodes.Constant: break; // nothing to do here, don't remove because we want to prevent falling into the default case here.
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[16285] | 66 | case OpCodes.Add: {
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| 67 | Load(instr.buf, code[c].buf);
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| 68 | for (int j = 1; j < n; ++j) {
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| 69 | Add(instr.buf, code[c + j].buf);
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| 70 | }
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| 71 | break;
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| 72 | }
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| 73 |
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| 74 | case OpCodes.Sub: {
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| 75 | if (n == 1) {
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| 76 | Neg(instr.buf, code[c].buf);
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| 77 | } else {
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| 78 | Load(instr.buf, code[c].buf);
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| 79 | for (int j = 1; j < n; ++j) {
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| 80 | Sub(instr.buf, code[c + j].buf);
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| 81 | }
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| 82 | }
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[16293] | 83 | break;
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[16285] | 84 | }
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| 85 |
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| 86 | case OpCodes.Mul: {
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| 87 | Load(instr.buf, code[c].buf);
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| 88 | for (int j = 1; j < n; ++j) {
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| 89 | Mul(instr.buf, code[c + j].buf);
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| 90 | }
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| 91 | break;
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| 92 | }
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| 93 |
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| 94 | case OpCodes.Div: {
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| 95 | if (n == 1) {
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| 96 | Inv(instr.buf, code[c].buf);
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| 97 | } else {
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| 98 | Load(instr.buf, code[c].buf);
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| 99 | for (int j = 1; j < n; ++j) {
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| 100 | Div(instr.buf, code[c + j].buf);
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| 101 | }
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| 102 | }
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[16293] | 103 | break;
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[16285] | 104 | }
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| 105 |
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[16293] | 106 | case OpCodes.Square: {
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| 107 | Square(instr.buf, code[c].buf);
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| 108 | break;
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| 109 | }
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| 110 |
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| 111 | case OpCodes.Root: {
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[16356] | 112 | Load(instr.buf, code[c].buf);
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| 113 | Root(instr.buf, code[c + 1].buf);
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[16293] | 114 | break;
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| 115 | }
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| 116 |
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| 117 | case OpCodes.SquareRoot: {
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| 118 | Sqrt(instr.buf, code[c].buf);
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| 119 | break;
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| 120 | }
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| 121 |
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[16356] | 122 | case OpCodes.Cube: {
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| 123 | Cube(instr.buf, code[c].buf);
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| 124 | break;
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| 125 | }
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| 126 | case OpCodes.CubeRoot: {
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| 127 | CubeRoot(instr.buf, code[c].buf);
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| 128 | break;
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| 129 | }
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| 130 |
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[16293] | 131 | case OpCodes.Power: {
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[16356] | 132 | Load(instr.buf, code[c].buf);
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| 133 | Pow(instr.buf, code[c + 1].buf);
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[16293] | 134 | break;
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| 135 | }
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| 136 |
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[16285] | 137 | case OpCodes.Exp: {
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| 138 | Exp(instr.buf, code[c].buf);
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| 139 | break;
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| 140 | }
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| 141 |
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| 142 | case OpCodes.Log: {
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| 143 | Log(instr.buf, code[c].buf);
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| 144 | break;
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| 145 | }
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[16293] | 146 |
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| 147 | case OpCodes.Sin: {
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| 148 | Sin(instr.buf, code[c].buf);
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| 149 | break;
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| 150 | }
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| 151 |
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| 152 | case OpCodes.Cos: {
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| 153 | Cos(instr.buf, code[c].buf);
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| 154 | break;
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| 155 | }
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| 156 |
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| 157 | case OpCodes.Tan: {
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| 158 | Tan(instr.buf, code[c].buf);
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| 159 | break;
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| 160 | }
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[16656] | 161 | case OpCodes.Tanh: {
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| 162 | Tanh(instr.buf, code[c].buf);
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| 163 | break;
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| 164 | }
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[16356] | 165 | case OpCodes.Absolute: {
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| 166 | Absolute(instr.buf, code[c].buf);
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| 167 | break;
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| 168 | }
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| 169 |
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[16360] | 170 | case OpCodes.AnalyticQuotient: {
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[16356] | 171 | Load(instr.buf, code[c].buf);
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| 172 | AnalyticQuotient(instr.buf, code[c + 1].buf);
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| 173 | break;
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| 174 | }
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[16762] | 175 | default: throw new NotSupportedException($"This interpreter does not support {(OpCode)instr.opcode}");
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[16285] | 176 | }
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| 177 | }
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| 178 | }
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| 179 |
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[16378] | 180 | private readonly object syncRoot = new object();
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| 181 |
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[16296] | 182 | [ThreadStatic]
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| 183 | private Dictionary<string, double[]> cachedData;
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| 184 |
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[16378] | 185 | [ThreadStatic]
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| 186 | private IDataset dataset;
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| 187 |
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[16296] | 188 | private void InitCache(IDataset dataset) {
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[16378] | 189 | this.dataset = dataset;
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[16296] | 190 | cachedData = new Dictionary<string, double[]>();
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| 191 | foreach (var v in dataset.DoubleVariables) {
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[16301] | 192 | cachedData[v] = dataset.GetDoubleValues(v).ToArray();
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[16296] | 193 | }
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| 194 | }
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| 195 |
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| 196 | public void InitializeState() {
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| 197 | cachedData = null;
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[16378] | 198 | dataset = null;
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[16296] | 199 | EvaluatedSolutions = 0;
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| 200 | }
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| 201 |
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[16285] | 202 | private double[] GetValues(ISymbolicExpressionTree tree, IDataset dataset, int[] rows) {
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[16378] | 203 | if (cachedData == null || this.dataset != dataset) {
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| 204 | InitCache(dataset);
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| 205 | }
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| 206 |
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[16285] | 207 | var code = Compile(tree, dataset, OpCodes.MapSymbolToOpCode);
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| 208 | var remainingRows = rows.Length % BATCHSIZE;
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| 209 | var roundedTotal = rows.Length - remainingRows;
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| 210 |
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| 211 | var result = new double[rows.Length];
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| 212 |
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| 213 | for (int rowIndex = 0; rowIndex < roundedTotal; rowIndex += BATCHSIZE) {
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| 214 | Evaluate(code, rows, rowIndex, BATCHSIZE);
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| 215 | Array.Copy(code[0].buf, 0, result, rowIndex, BATCHSIZE);
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| 216 | }
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| 217 |
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| 218 | if (remainingRows > 0) {
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| 219 | Evaluate(code, rows, roundedTotal, remainingRows);
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| 220 | Array.Copy(code[0].buf, 0, result, roundedTotal, remainingRows);
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| 221 | }
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| 222 |
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[16378] | 223 | // when evaluation took place without any error, we can increment the counter
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| 224 | lock (syncRoot) {
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| 225 | EvaluatedSolutions++;
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| 226 | }
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| 227 |
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[16285] | 228 | return result;
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| 229 | }
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| 230 |
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[16293] | 231 | public IEnumerable<double> GetSymbolicExpressionTreeValues(ISymbolicExpressionTree tree, IDataset dataset, int[] rows) {
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| 232 | return GetValues(tree, dataset, rows);
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| 233 | }
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| 234 |
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[16285] | 235 | public IEnumerable<double> GetSymbolicExpressionTreeValues(ISymbolicExpressionTree tree, IDataset dataset, IEnumerable<int> rows) {
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[16296] | 236 | return GetSymbolicExpressionTreeValues(tree, dataset, rows.ToArray());
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[16285] | 237 | }
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| 238 |
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| 239 | private BatchInstruction[] Compile(ISymbolicExpressionTree tree, IDataset dataset, Func<ISymbolicExpressionTreeNode, byte> opCodeMapper) {
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| 240 | var root = tree.Root.GetSubtree(0).GetSubtree(0);
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| 241 | var code = new BatchInstruction[root.GetLength()];
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| 242 | if (root.SubtreeCount > ushort.MaxValue) throw new ArgumentException("Number of subtrees is too big (>65.535)");
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| 243 | int c = 1, i = 0;
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| 244 | foreach (var node in root.IterateNodesBreadth()) {
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[16296] | 245 | if (node.SubtreeCount > ushort.MaxValue) throw new ArgumentException("Number of subtrees is too big (>65.535)");
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| 246 | code[i] = new BatchInstruction {
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| 247 | opcode = opCodeMapper(node),
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| 248 | narg = (ushort)node.SubtreeCount,
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| 249 | buf = new double[BATCHSIZE],
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| 250 | childIndex = c
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| 251 | };
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[16285] | 252 | if (node is VariableTreeNode variable) {
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| 253 | code[i].weight = variable.Weight;
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[16296] | 254 | if (cachedData.ContainsKey(variable.VariableName)) {
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| 255 | code[i].data = cachedData[variable.VariableName];
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| 256 | } else {
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| 257 | code[i].data = dataset.GetReadOnlyDoubleValues(variable.VariableName).ToArray();
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| 258 | cachedData[variable.VariableName] = code[i].data;
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| 259 | }
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[16285] | 260 | } else if (node is ConstantTreeNode constant) {
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| 261 | code[i].value = constant.Value;
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[16287] | 262 | for (int j = 0; j < BATCHSIZE; ++j)
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| 263 | code[i].buf[j] = code[i].value;
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[16285] | 264 | }
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| 265 | c += node.SubtreeCount;
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| 266 | ++i;
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| 267 | }
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| 268 | return code;
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| 269 | }
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| 270 | }
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| 271 | }
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