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source: branches/2886_SymRegGrammarEnumeration/Test/GrammarEnumerationTest.cs @ 16101

Last change on this file since 16101 was 16056, checked in by bburlacu, 6 years ago

#2886: Remove redundant EvaluatePhrase method in the Grammar class and fix compilation of tests.

File size: 43.6 KB
Line 
1using System;
2using System.Collections;
3using System.Collections.Generic;
4using System.Linq;
5using HeuristicLab.Algorithms.DataAnalysis.SymRegGrammarEnumeration;
6using HeuristicLab.Common;
7using HeuristicLab.Core;
8using HeuristicLab.Problems.DataAnalysis;
9using HeuristicLab.Problems.Instances.DataAnalysis;
10using HeuristicLab.Random;
11using Microsoft.VisualStudio.TestTools.UnitTesting;
12
13namespace HeuristicLab.Algorithms.DataAnalysis.MctsSymbolicRegression {
14  [TestClass]
15  public class MctsSymbolicRegressionTest {
16    private const int Seed = 1234;
17    private IRandom rand;
18
19    private const double SuccessThreshold = 0.9999999;
20
21    private GrammarEnumerationAlgorithm alg;
22    private RegressionProblem problem;
23
24    [TestInitialize]
25    public void InitTest() {
26      rand = new FastRandom(Seed);
27
28      alg = new GrammarEnumerationAlgorithm();
29      problem = new RegressionProblem();
30      alg.Problem = problem;
31      alg.GuiUpdateInterval = int.MaxValue;
32      foreach (IGrammarEnumerationAnalyzer grammarEnumerationAnalyzer in alg.Analyzers) {
33        alg.Analyzers.SetItemCheckedState(grammarEnumerationAnalyzer, grammarEnumerationAnalyzer is RSquaredEvaluator);
34      }
35      alg.SearchDataStructure = StorageType.PriorityQueue;
36    }
37
38    [TestCleanup]
39    public void Cleanup() {
40      if (alg.BestTrainingSentence != null) {
41        Console.WriteLine("Training: " + alg.Grammar.ToInfixString(alg.BestTrainingSentence));
42      }
43    }
44
45    private void EvaluateGrammarEnumeration() {
46      // Evaluate results
47      var eps = 1.0 - SuccessThreshold;
48
49      // Check if algorithm terminated correctly
50      Assert.IsTrue(alg.Results.ContainsKey("Best solution (Training)"), "No training solution returned!");
51
52      // Check resultss
53      Assert.AreEqual(1.0, ((IRegressionSolution)alg.Results["Best solution (Training)"].Value).TestRSquared, eps, "Test quality too low!");
54    }
55
56    [TestMethod]
57    [TestProperty("Goal", "structure search")]
58    public void NoConstants_Nguyen1() {
59      // x³ + x² + x
60      alg.Evaluator.OptimizeConstants = false;
61      alg.MaxComplexity = 6;
62      alg.Problem.ProblemData = new NguyenFunctionOne(Seed).GenerateRegressionData();
63      alg.SearchDataStructureSize = (int)1e6;
64
65      alg.Start();
66
67      TerminalSymbol constSymbol = alg.Grammar.Const;
68      TerminalSymbol varSymbol = alg.Grammar.VarTerminals.First();
69      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
70      TerminalSymbol addSymbol = alg.Grammar.Addition;
71
72      SymbolList targetSolution = new SymbolList(new[] {
73        constSymbol, varSymbol, varSymbol, varSymbol, mulSymbol, mulSymbol, mulSymbol,
74        constSymbol, varSymbol, varSymbol, mulSymbol, mulSymbol, addSymbol,
75        constSymbol, varSymbol, mulSymbol, addSymbol,
76        constSymbol, addSymbol
77      });
78
79      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
80      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
81
82      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
83
84      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
85
86      // Evaluate
87      EvaluateGrammarEnumeration();
88    }
89
90    // Too "large" target model for now...
91    //[TestMethod]
92    [TestProperty("Goal", "structure search")]
93    public void NoConstants_Nguyen2() {
94      // x^4 + x³ + x² + x
95      alg.MaxComplexity = 11;
96      alg.Problem.ProblemData = new NguyenFunctionTwo(Seed).GenerateRegressionData();
97
98      alg.Start();
99      EvaluateGrammarEnumeration();
100    }
101
102    // Too "large" target model for now...
103    //[TestMethod]
104    [TestProperty("Goal", "structure search")]
105    public void NoConstants_Nguyen3() {
106      // x^5 + x^4 + x^3 + x^2 + x
107      alg.MaxComplexity = 32;
108      alg.Problem.ProblemData = new NguyenFunctionThree(Seed).GenerateRegressionData();
109
110      alg.Start();
111
112      EvaluateGrammarEnumeration();
113    }
114
115    [TestMethod]
116    [TestProperty("Goal", "structure search")]
117    public void NoConstants_Nguyen6() {
118      // sin(x) + sin(x + x²)
119      alg.Evaluator.OptimizeConstants = false;
120      alg.MaxComplexity = 4;
121      alg.Problem.ProblemData = new NguyenFunctionSix(Seed).GenerateRegressionData();
122      alg.SearchDataStructureSize = (int)1e6;
123
124      alg.Start();
125
126      TerminalSymbol constSymbol = alg.Grammar.Const;
127      TerminalSymbol varSymbol = alg.Grammar.VarTerminals.First();
128      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
129      TerminalSymbol addSymbol = alg.Grammar.Addition;
130      TerminalSymbol sinSymbol = alg.Grammar.Sin;
131
132      // c * sin(c x + c) + c * sin(c * x * x + c * x) + c
133      SymbolList targetSolution = new SymbolList(new[] {
134        varSymbol, constSymbol, mulSymbol, constSymbol, addSymbol, sinSymbol, constSymbol, mulSymbol,
135        varSymbol, varSymbol, mulSymbol, constSymbol, mulSymbol, varSymbol, constSymbol, mulSymbol, addSymbol, constSymbol, addSymbol, sinSymbol, constSymbol, mulSymbol, addSymbol,
136        constSymbol, addSymbol
137      });
138
139      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
140      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
141
142      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
143      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
144
145      EvaluateGrammarEnumeration();
146    }
147
148    [TestMethod]
149    [TestProperty("Goal", "structure search")]
150    public void NoConstants_Nguyen9() {
151      // sin(x) + sin(y²)   
152      alg.Evaluator.OptimizeConstants = false;
153      alg.MaxComplexity = 3;
154      alg.Problem.ProblemData = new NguyenFunctionNine(Seed).GenerateRegressionData();
155      alg.SearchDataStructureSize = (int)1e6;
156
157      alg.Start();
158
159      TerminalSymbol xSymbol = alg.Grammar.VarTerminals.First(v => v.StringRepresentation == "X");
160      TerminalSymbol ySymbol = alg.Grammar.VarTerminals.First(v => v.StringRepresentation == "Y");
161      TerminalSymbol constSymbol = alg.Grammar.Const;
162      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
163      TerminalSymbol addSymbol = alg.Grammar.Addition;
164      TerminalSymbol sinSymbol = alg.Grammar.Sin;
165
166      // c*sin(c*x + c) + c*sin(c*y*y + c) + c
167      SymbolList targetSolution = new SymbolList(new[] {
168        xSymbol, constSymbol, mulSymbol, constSymbol, addSymbol, sinSymbol, constSymbol, mulSymbol,
169        ySymbol, ySymbol, mulSymbol, constSymbol, mulSymbol, constSymbol, addSymbol, sinSymbol, constSymbol, mulSymbol, addSymbol,
170        constSymbol, addSymbol
171      });
172
173      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
174      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
175
176      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
177      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
178
179      EvaluateGrammarEnumeration();
180    }
181
182    // Too much variables for now...
183    //[TestMethod]
184    [TestProperty("Goal", "structure search")]
185    public void MctsSymbReg_NoConstants_Poly10() {
186      alg.MaxComplexity = 10;
187      alg.Problem.ProblemData = new PolyTen(Seed).GenerateRegressionData();
188
189      alg.Start();
190      EvaluateGrammarEnumeration();
191    }
192
193    [TestMethod]
194    [TestProperty("Goal", "structure search")]
195    public void NoConstants_Inverse() {
196      // x / (log(x)*x + x)
197      alg.Evaluator.OptimizeConstants = false;
198      alg.MaxComplexity = 4;
199
200      var x = Enumerable.Range(0, 100).Select(_ => rand.NextDouble() + 1.1).ToList();
201      var y = x.Select(xi => xi / (Math.Log(xi) * xi + xi)).ToList();
202      alg.Problem.ProblemData = new RegressionProblemData(new Dataset(new List<string>() { "x", "y" }, new List<IList>() { x, y }), "x".ToEnumerable(), "y");
203      alg.SearchDataStructureSize = (int)1e7;
204
205      alg.Start();
206      EvaluateGrammarEnumeration();
207    }
208
209    [TestMethod]
210    [TestProperty("Goal", "structure search + const op")]
211    public void Constants_Nguyen7() {
212      // log(x+1) + log(x*x + 1)
213      alg.MaxComplexity = 4;
214      alg.Evaluator.OptimizeConstants = true;
215      alg.Problem.ProblemData = new NguyenFunctionSeven().GenerateRegressionData();
216
217      alg.Start();
218
219      TerminalSymbol constSymbol = alg.Grammar.Const;
220      TerminalSymbol varSymbol = alg.Grammar.VarTerminals.First();
221      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
222      TerminalSymbol addSymbol = alg.Grammar.Addition;
223      TerminalSymbol logSymbol = alg.Grammar.Log;
224
225      SymbolList targetSolution = new SymbolList(new[] {
226        varSymbol, constSymbol, mulSymbol, constSymbol, addSymbol, logSymbol, constSymbol, mulSymbol,
227        varSymbol, varSymbol, mulSymbol, constSymbol, mulSymbol, constSymbol, addSymbol, logSymbol, constSymbol, mulSymbol, addSymbol,
228        constSymbol, addSymbol
229      });
230
231      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
232      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
233
234      Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
235      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
236
237      // Evaluate
238      EvaluateGrammarEnumeration();
239    }
240
241    [TestMethod]
242    [TestProperty("Goal", "structure search + const op")]
243    public void Constants_Nguyen12() {
244      // x*x*x*x - x*x*x + y*y/2 -y
245      alg.MaxComplexity = 10;
246      alg.Evaluator.OptimizeConstants = true;
247      alg.Problem.ProblemData = new NguyenFunctionTwelve().GenerateRegressionData();
248
249      alg.Start();
250
251      // Evaluate
252      EvaluateGrammarEnumeration();
253    }
254
255    [TestMethod]
256    [TestProperty("Goal", "sinnus const op")]
257    public void Constants_Keijzer3() {
258      // 0.3*x*sin(2*pi*x)
259      alg.MaxComplexity = 2;
260      alg.Problem.ProblemData = new KeijzerFunctionThree().GenerateRegressionData();
261      alg.SearchDataStructureSize = (int)1e7;
262
263      alg.Start();
264
265      TerminalSymbol constSymbol = alg.Grammar.Const;
266      TerminalSymbol varSymbol = alg.Grammar.VarTerminals.First();
267      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
268      TerminalSymbol addSymbol = alg.Grammar.Addition;
269
270      SymbolList targetSolution = new SymbolList(new[] {
271        constSymbol, varSymbol, mulSymbol, constSymbol, addSymbol, alg.Grammar.Sin,
272        varSymbol, mulSymbol,
273        constSymbol, mulSymbol,
274        constSymbol, addSymbol
275      });
276
277      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
278      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
279
280      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
281      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
282
283      // Evaluate
284      EvaluateGrammarEnumeration();
285    }
286
287    [TestMethod]
288    [TestProperty("Goal", "structure search + const op")]
289    public void Constants_Keijzer5() {
290      // (30*x*z) / ((x - 10)*y*y)
291      alg.MaxComplexity = 5;
292      alg.Evaluator.OptimizeConstants = true;
293      alg.Problem.ProblemData = new KeijzerFunctionFive().GenerateRegressionData();
294      alg.SearchDataStructureSize = (int)1e7;
295
296      alg.Start();
297
298      TerminalSymbol constSymbol = alg.Grammar.Const;
299      TerminalSymbol xSymbol = alg.Grammar.VarTerminals.First(s => s.StringRepresentation == "X");
300      TerminalSymbol ySymbol = alg.Grammar.VarTerminals.First(s => s.StringRepresentation == "Y");
301      TerminalSymbol zSymbol = alg.Grammar.VarTerminals.First(s => s.StringRepresentation == "Z");
302      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
303      TerminalSymbol addSymbol = alg.Grammar.Addition;
304      TerminalSymbol invSymbol = alg.Grammar.Inv;
305
306      // 30 * x * z * 1/(x*y*y - 10*y*y)
307      // --> x z * c *     x y * y * c *  y y * c * + c + inv c +
308      SymbolList targetSolution = new SymbolList(new[] {
309        xSymbol, zSymbol, mulSymbol, constSymbol, mulSymbol,
310        xSymbol, ySymbol, mulSymbol, ySymbol, mulSymbol, constSymbol, mulSymbol,
311        ySymbol, ySymbol, mulSymbol, constSymbol, mulSymbol, addSymbol, constSymbol, addSymbol, invSymbol,
312        constSymbol, addSymbol
313      });
314
315      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
316      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
317
318      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
319
320      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
321
322      // Evaluate
323      EvaluateGrammarEnumeration();
324    }
325
326
327    [TestMethod]
328    [TestProperty("Goal", "structure search + const op")]
329    public void Constants_Keijzer12() {
330      // x*x*x*x - x*x*x + y*y/2 - y
331      alg.MaxComplexity = 10;
332      alg.Problem.ProblemData = new KeijzerFunctionTwelve().GenerateRegressionData();
333      alg.SearchDataStructureSize = (int)1e7;
334
335      alg.Start();
336
337      TerminalSymbol constSymbol = alg.Grammar.Const;
338      TerminalSymbol xSymbol = alg.Grammar.VarTerminals.First();
339      TerminalSymbol ySymbol = alg.Grammar.VarTerminals.Last();
340      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
341      TerminalSymbol addSymbol = alg.Grammar.Addition;
342
343      SymbolList targetSolution = new SymbolList(new[] {
344        xSymbol, xSymbol, mulSymbol, xSymbol, mulSymbol, xSymbol, mulSymbol, constSymbol, mulSymbol,
345        xSymbol, xSymbol, mulSymbol, xSymbol, mulSymbol, constSymbol, mulSymbol, addSymbol,
346        ySymbol, ySymbol, mulSymbol, constSymbol, mulSymbol, addSymbol,
347        ySymbol, constSymbol, mulSymbol, addSymbol,
348        constSymbol, addSymbol
349      });
350
351      var x = alg.Grammar.ToInfixString(targetSolution);
352
353      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
354      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
355
356      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
357      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
358
359      // Evaluate
360      EvaluateGrammarEnumeration();
361    }
362
363    [TestMethod]
364    [TestProperty("Goal", "structure search + const op")]
365    public void Constants_Keijzer14() {
366      // 8 / (2 + x*x + y*y)
367      alg.MaxComplexity = 4;
368      alg.Evaluator.OptimizeConstants = true;
369      alg.Problem.ProblemData = new KeijzerFunctionFourteen().GenerateRegressionData();
370      alg.SearchDataStructureSize = (int)1e7;
371
372      alg.Start();
373
374      TerminalSymbol constSymbol = alg.Grammar.Const;
375      TerminalSymbol xSymbol = alg.Grammar.VarTerminals.First();
376      TerminalSymbol ySymbol = alg.Grammar.VarTerminals.Last();
377      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
378      TerminalSymbol addSymbol = alg.Grammar.Addition;
379      TerminalSymbol divSymbol = alg.Grammar.Inv;
380
381
382      // x x mul c mul y y mul c mul add const add inv const mul const add
383      SymbolList targetSolution = new SymbolList(new[] {
384        xSymbol, xSymbol, mulSymbol, constSymbol, mulSymbol,
385        ySymbol, ySymbol, mulSymbol, constSymbol, mulSymbol, addSymbol,
386        constSymbol, addSymbol, divSymbol,
387        constSymbol, mulSymbol,
388        constSymbol, addSymbol
389      });
390
391      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
392      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
393
394      //Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
395      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
396
397      // Evaluate
398      EvaluateGrammarEnumeration();
399    }
400
401
402    [TestMethod]
403    [TestProperty("Goal", "structure search + const op")]
404    public void Constants_Keijzer15() {
405      // x*x*x / 5 + y*y*y / 2 - y - x
406      alg.MaxComplexity = 8;
407      alg.Evaluator.OptimizeConstants = true;
408      alg.Problem.ProblemData = new KeijzerFunctionFifteen().GenerateRegressionData();
409
410      alg.Start();
411
412      TerminalSymbol constSymbol = alg.Grammar.Const;
413      TerminalSymbol xSymbol = alg.Grammar.VarTerminals.First();
414      TerminalSymbol ySymbol = alg.Grammar.VarTerminals.Last();
415      TerminalSymbol mulSymbol = alg.Grammar.Multiplication;
416      TerminalSymbol addSymbol = alg.Grammar.Addition;
417
418      // x x * x * const * y y * y * const * + y const * + x const * const +
419      SymbolList targetSolution = new SymbolList(new[] {
420        xSymbol, xSymbol, mulSymbol, xSymbol, mulSymbol, constSymbol, mulSymbol,
421        ySymbol, ySymbol, mulSymbol, ySymbol, mulSymbol, constSymbol, mulSymbol, addSymbol,
422        ySymbol, constSymbol, mulSymbol, addSymbol,
423        xSymbol, constSymbol, mulSymbol, addSymbol,
424        constSymbol, addSymbol
425      });
426
427      int targetSolutionHash = alg.Grammar.Hasher.CalcHashCode(targetSolution);
428      int actualSolutionHash = alg.Grammar.Hasher.CalcHashCode(alg.BestTrainingSentence);
429
430      Assert.IsTrue(alg.DistinctSentencesComplexity.ContainsKey(targetSolutionHash), "Actual solution was not generated!");
431      Assert.AreEqual(targetSolutionHash, actualSolutionHash, "Actual solution was not recognized as best one.");
432
433      // Evaluate
434      EvaluateGrammarEnumeration();
435    }
436
437    [TestMethod]
438    [TestProperty("Goal", "Poly-10 derivatives")]
439    public void MctsSymbReg_NoConstants_Poly10_Part1() {
440      alg.MaxComplexity = 12;
441      alg.Evaluator.OptimizeConstants = false;
442      var regProblem = new PolyTen(123).GenerateRegressionData();
443
444      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
445      //  Y' = X1*X2 + X3*X4 + X5*X6
446      // simplify problem by changing target
447      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
448      var ys = ds.GetDoubleValues("Y").ToArray();
449      var x1 = ds.GetDoubleValues("X1").ToArray();
450      var x2 = ds.GetDoubleValues("X2").ToArray();
451      var x3 = ds.GetDoubleValues("X3").ToArray();
452      var x4 = ds.GetDoubleValues("X4").ToArray();
453      var x5 = ds.GetDoubleValues("X5").ToArray();
454      var x6 = ds.GetDoubleValues("X6").ToArray();
455      var x7 = ds.GetDoubleValues("X7").ToArray();
456      var x8 = ds.GetDoubleValues("X8").ToArray();
457      var x9 = ds.GetDoubleValues("X9").ToArray();
458      var x10 = ds.GetDoubleValues("X10").ToArray();
459      for (int i = 0; i < ys.Length; i++) {
460        //ys[i] -= x1[i] * x7[i] * x9[i];
461        //ys[i] -= x3[i] * x6[i] * x10[i];
462      }
463      ds.ReplaceVariable("Y", ys.ToList());
464
465      alg.Problem.ProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
466
467      alg.Start();
468
469      EvaluateGrammarEnumeration();
470    }
471
472
473
474
475#if false
476
477    [TestMethod]
478    [TestProperty("Goal", "structure search")]
479    public void MctsSymbReg_NoConstants_15() {
480      alg.MaxTreeSize = 5;
481      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
482      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("15")));
483      alg.Problem.ProblemData = regProblem;
484
485      alg.Start();
486      EvaluateGrammarEnumeration();
487    }
488
489
490    [TestMethod]
491    [TestCategory("Algorithms.DataAnalysis")]
492    [TestProperty("Time", "short")]
493    public void MctsSymbReg_NoConstants_Nguyen7() {
494      // log(x + 1) + log(x² + 1)
495      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider(Seed);
496      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F7 ")));
497      TestGrammarEnumeration(regProblem);
498    }
499
500    [TestMethod]
501    [TestCategory("Algorithms.DataAnalysis")]
502    [TestProperty("Time", "short")]
503    public void MctsSymbReg_NoConstants_Poly10_Part1() {
504      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
505      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
506
507      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
508      //  Y' = X1*X2 + X3*X4 + X5*X6
509      // simplify problem by changing target
510      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
511      var ys = ds.GetDoubleValues("Y").ToArray();
512      var x1 = ds.GetDoubleValues("X1").ToArray();
513      var x2 = ds.GetDoubleValues("X2").ToArray();
514      var x3 = ds.GetDoubleValues("X3").ToArray();
515      var x4 = ds.GetDoubleValues("X4").ToArray();
516      var x5 = ds.GetDoubleValues("X5").ToArray();
517      var x6 = ds.GetDoubleValues("X6").ToArray();
518      var x7 = ds.GetDoubleValues("X7").ToArray();
519      var x8 = ds.GetDoubleValues("X8").ToArray();
520      var x9 = ds.GetDoubleValues("X9").ToArray();
521      var x10 = ds.GetDoubleValues("X10").ToArray();
522      for (int i = 0; i < ys.Length; i++) {
523        ys[i] -= x1[i] * x7[i] * x9[i];
524        ys[i] -= x3[i] * x6[i] * x10[i];
525      }
526      ds.ReplaceVariable("Y", ys.ToList());
527
528      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
529
530      TestGrammarEnumeration(modifiedProblemData);
531    }
532
533    [TestMethod]
534    [TestCategory("Algorithms.DataAnalysis")]
535    [TestProperty("Time", "short")]
536    public void MctsSymbReg_NoConstants_Poly10_Part2() {
537      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
538      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
539
540      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
541      //  Y' = X1*X7*X9 + X3*X6*X10
542      // simplify problem by changing target
543      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
544      var ys = ds.GetDoubleValues("Y").ToArray();
545      var x1 = ds.GetDoubleValues("X1").ToArray();
546      var x2 = ds.GetDoubleValues("X2").ToArray();                                           
547      var x3 = ds.GetDoubleValues("X3").ToArray();
548      var x4 = ds.GetDoubleValues("X4").ToArray();
549      var x5 = ds.GetDoubleValues("X5").ToArray();
550      var x6 = ds.GetDoubleValues("X6").ToArray();
551      var x7 = ds.GetDoubleValues("X7").ToArray();
552      var x8 = ds.GetDoubleValues("X8").ToArray();
553      var x9 = ds.GetDoubleValues("X9").ToArray();
554      var x10 = ds.GetDoubleValues("X10").ToArray();
555      for (int i = 0; i < ys.Length; i++) {
556        ys[i] -= x1[i] * x2[i];
557        ys[i] -= x3[i] * x4[i];
558        ys[i] -= x5[i] * x6[i];
559      }
560      ds.ReplaceVariable("Y", ys.ToList());
561
562      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
563
564      TestGrammarEnumeration(modifiedProblemData);
565    }
566
567    [TestMethod]
568    [TestCategory("Algorithms.DataAnalysis")]
569    [TestProperty("Time", "short")]
570    public void MctsSymbReg_NoConstants_Poly10_Part3() {
571      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
572      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
573
574      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
575      //  Y' = X1*X2 + X1*X7*X9
576      // simplify problem by changing target
577      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
578      var ys = ds.GetDoubleValues("Y").ToArray();
579      var x1 = ds.GetDoubleValues("X1").ToArray();
580      var x2 = ds.GetDoubleValues("X2").ToArray();
581      var x3 = ds.GetDoubleValues("X3").ToArray();
582      var x4 = ds.GetDoubleValues("X4").ToArray();
583      var x5 = ds.GetDoubleValues("X5").ToArray();
584      var x6 = ds.GetDoubleValues("X6").ToArray();
585      var x7 = ds.GetDoubleValues("X7").ToArray();
586      var x8 = ds.GetDoubleValues("X8").ToArray();
587      var x9 = ds.GetDoubleValues("X9").ToArray();
588      var x10 = ds.GetDoubleValues("X10").ToArray();
589      for (int i = 0; i < ys.Length; i++) {
590        ys[i] -= x3[i] * x4[i];
591        ys[i] -= x5[i] * x6[i];
592        ys[i] -= x3[i] * x6[i] * x10[i];
593      }
594      ds.ReplaceVariable("Y", ys.ToList());
595
596      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
597
598      TestGrammarEnumeration(modifiedProblemData);
599    }
600
601    [TestMethod]
602    [TestCategory("Algorithms.DataAnalysis")]
603    [TestProperty("Time", "short")]
604    public void MctsSymbReg_NoConstants_Poly10_Part4() {
605      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
606      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
607
608      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
609      //  Y' = X3*X4 + X5*X6 + X3*X6*X10
610      // simplify problem by changing target
611      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
612      var ys = ds.GetDoubleValues("Y").ToArray();
613      var x1 = ds.GetDoubleValues("X1").ToArray();
614      var x2 = ds.GetDoubleValues("X2").ToArray();
615      var x3 = ds.GetDoubleValues("X3").ToArray();
616      var x4 = ds.GetDoubleValues("X4").ToArray();
617      var x5 = ds.GetDoubleValues("X5").ToArray();
618      var x6 = ds.GetDoubleValues("X6").ToArray();
619      var x7 = ds.GetDoubleValues("X7").ToArray();
620      var x8 = ds.GetDoubleValues("X8").ToArray();
621      var x9 = ds.GetDoubleValues("X9").ToArray();
622      var x10 = ds.GetDoubleValues("X10").ToArray();
623      for (int i = 0; i < ys.Length; i++) {
624        ys[i] -= x1[i] * x2[i];
625        ys[i] -= x1[i] * x7[i] * x9[i];
626      }
627      ds.ReplaceVariable("Y", ys.ToList());
628      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
629
630
631      TestGrammarEnumeration(modifiedProblemData);
632    }
633
634    [TestMethod]
635    [TestCategory("Algorithms.DataAnalysis")]
636    [TestProperty("Time", "short")]
637    public void MctsSymbReg_NoConstants_Poly10_Part5() {
638      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
639      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
640
641      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
642      //  Y' = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9
643      // simplify problem by changing target
644      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
645      var ys = ds.GetDoubleValues("Y").ToArray();
646      var x1 = ds.GetDoubleValues("X1").ToArray();
647      var x2 = ds.GetDoubleValues("X2").ToArray();
648      var x3 = ds.GetDoubleValues("X3").ToArray();
649      var x4 = ds.GetDoubleValues("X4").ToArray();
650      var x5 = ds.GetDoubleValues("X5").ToArray();
651      var x6 = ds.GetDoubleValues("X6").ToArray();
652      var x7 = ds.GetDoubleValues("X7").ToArray();
653      var x8 = ds.GetDoubleValues("X8").ToArray();
654      var x9 = ds.GetDoubleValues("X9").ToArray();
655      var x10 = ds.GetDoubleValues("X10").ToArray();
656      for (int i = 0; i < ys.Length; i++) {
657        ys[i] -= x3[i] * x6[i] * x10[i];
658      }
659      ds.ReplaceVariable("Y", ys.ToList());
660      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
661
662
663      TestGrammarEnumeration(modifiedProblemData);
664    }
665
666    [TestMethod]
667    [TestCategory("Algorithms.DataAnalysis")]
668    [TestProperty("Time", "short")]
669    public void MctsSymbReg_NoConstants_Poly10_Part6() {
670      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
671      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
672
673      //  Y = X1*X2 + X3*X4 + X5*X6 + X1*X7*X9 + X3*X6*X10
674      //  Y' = X1*X2 + X3*X4 + X5*X6 + X3*X6*X10
675      // simplify problem by changing target
676      var ds = ((Dataset)regProblem.Dataset).ToModifiable();
677      var ys = ds.GetDoubleValues("Y").ToArray();
678      var x1 = ds.GetDoubleValues("X1").ToArray();
679      var x2 = ds.GetDoubleValues("X2").ToArray();
680      var x3 = ds.GetDoubleValues("X3").ToArray();
681      var x4 = ds.GetDoubleValues("X4").ToArray();
682      var x5 = ds.GetDoubleValues("X5").ToArray();
683      var x6 = ds.GetDoubleValues("X6").ToArray();
684      var x7 = ds.GetDoubleValues("X7").ToArray();
685      var x8 = ds.GetDoubleValues("X8").ToArray();
686      var x9 = ds.GetDoubleValues("X9").ToArray();
687      var x10 = ds.GetDoubleValues("X10").ToArray();
688      for (int i = 0; i < ys.Length; i++) {
689        ys[i] -= x1[i] * x7[i] * x9[i];
690      }
691      ds.ReplaceVariable("Y", ys.ToList());
692      var modifiedProblemData = new RegressionProblemData(ds, regProblem.AllowedInputVariables, regProblem.TargetVariable);
693
694      TestGrammarEnumeration(modifiedProblemData);
695    }
696
697
698    [TestMethod]
699    [TestCategory("Algorithms.DataAnalysis")]
700    [TestProperty("Time", "long")]
701    public void MctsSymbReg_NoConstants_Poly10_250rows() {
702      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.VariousInstanceProvider(Seed);
703      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Poly-10")));
704      regProblem.TrainingPartition.Start = 0;
705      regProblem.TrainingPartition.End = regProblem.Dataset.Rows;
706      regProblem.TestPartition.Start = 0;
707      regProblem.TestPartition.End = 2;
708      TestGrammarEnumeration(regProblem);
709    }
710
711    [TestMethod]
712    [TestCategory("Algorithms.DataAnalysis")]
713    [TestProperty("Time", "long")]
714    public void MctsSymbReg_NoConstants_Poly10_10000rows() {
715      // as poly-10 but more rows
716      var x1 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
717      var x2 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
718      var x3 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
719      var x4 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
720      var x5 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
721      var x6 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
722      var x7 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
723      var x8 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
724      var x9 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
725      var x10 = Enumerable.Range(0, 10000).Select(_ => rand.NextDouble()).ToList();
726      var ys = new List<double>();
727      for (int i = 0; i < x1.Count; i++) {
728        ys.Add(x1[i] * x2[i] + x3[i] * x4[i] + x5[i] * x6[i] + x1[i] * x7[i] * x9[i] + x3[i] * x6[i] * x10[i]);
729      }
730
731      var ds = new Dataset(new string[] { "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "y" },
732        new[] { x1, x2, x3, x4, x5, x6, x7, x8, x9, x10, ys });
733
734
735      var problemData = new RegressionProblemData(ds, new string[] { "a", "b", "c", "d", "e", "f", "g", "h", "i", "j" }, "y");
736
737      problemData.TrainingPartition.Start = 0;
738      problemData.TrainingPartition.End = problemData.Dataset.Rows;
739      problemData.TestPartition.Start = 0;
740      problemData.TestPartition.End = 2; // must not be empty
741
742
743      TestGrammarEnumeration(problemData);
744    }
745
746    [TestMethod]
747    [TestCategory("Algorithms.DataAnalysis")]
748    [TestProperty("Time", "short")]
749    public void MctsSymbReg_NoConstants_TwoVars() {
750
751      // y = x1 + x2 + x1*x2 + x1*x2*x2 + x1*x1*x2
752      var x1 = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
753      var x2 = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
754      var ys = x1.Zip(x2, (x1i, x2i) => x1i + x2i + x1i * x2i + x1i * x2i * x2i + x1i * x1i * x2i).ToList();
755
756      var ds = new Dataset(new string[] { "a", "b", "y" }, new[] { x1, x2, ys });
757      var problemData = new RegressionProblemData(ds, new string[] { "a", "b" }, "y");
758
759      TestGrammarEnumeration(problemData);
760    }
761
762    [TestMethod]
763    [TestCategory("Algorithms.DataAnalysis")]
764    [TestProperty("Time", "short")]
765    public void MctsSymbReg_NoConstants_Misleading() {
766
767      // y = a + baaaaa (the effect of the second term should be very small)
768      // the alg will quickly find that a has big effect and will search below a
769      // since we prevent a + a... the algorithm must find the correct expression via a + b...
770      // however b has a small effect so the branch might not be identified as relevant
771      var @as = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
772      var bs = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
773      var cs = Enumerable.Range(0, 100).Select(_ => rand.NextDouble() * 1.0e-3).ToList();
774      var ds = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
775      var es = Enumerable.Range(0, 100).Select(_ => rand.NextDouble()).ToList();
776      var ys = new double[@as.Count];
777      for (int i = 0; i < ys.Length; i++)
778        ys[i] = @as[i] + bs[i] + @as[i] * bs[i] * cs[i];
779
780      var dataset = new Dataset(new string[] { "a", "b", "c", "d", "e", "y" }, new[] { @as, bs, cs, ds, es, ys.ToList() });
781
782      var problemData = new RegressionProblemData(dataset, new string[] { "a", "b", "c", "d", "e" }, "y");
783
784      TestGrammarEnumeration(problemData);
785    }
786
787    [TestMethod]
788    [TestCategory("Algorithms.DataAnalysis")]
789    [TestProperty("Time", "short")]
790    public void MctsSymbRegKeijzer7() {
791      // ln(x)
792      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
793      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 7 f(")));
794      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
795      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
796      TestGrammarEnumeration(regProblem);
797    }
798
799   
800    [TestMethod]
801    [TestCategory("Algorithms.DataAnalysis")]
802    [TestProperty("Time", "short")]
803    public void MctsSymbRegBenchmarkNguyen5() {
804      // sin(x²)cos(x) - 1
805      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider();
806      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F5 ")));
807      TestGrammarEnumeration(regProblem);
808    }
809
810    [TestMethod]
811    [TestCategory("Algorithms.DataAnalysis")]
812    [TestProperty("Time", "short")]
813    public void MctsSymbRegBenchmarkNguyen6() {
814      // sin(x) + sin(x + x²)
815      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider();
816      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F6 ")));
817      TestGrammarEnumeration(regProblem);
818    }
819   
820    [TestMethod]
821    [TestCategory("Algorithms.DataAnalysis")]
822    [TestProperty("Time", "short")]
823    public void MctsSymbRegBenchmarkNguyen7() {
824      //  log(x + 1) + log(x² + 1)
825      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider(Seed);
826      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F7 ")));
827      TestGrammarEnumeration(regProblem);
828    }
829    [TestMethod]
830    [TestCategory("Algorithms.DataAnalysis")]
831    [TestProperty("Time", "short")]
832    public void MctsSymbRegBenchmarkNguyen8() {
833      // Sqrt(x)
834      // = x ^ 0.5
835      // = exp(0.5 * log(x))
836      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider(Seed);
837      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F8 ")));
838      TestGrammarEnumeration(regProblem);
839    }
840   
841    // [TestMethod]
842    [TestCategory("Algorithms.DataAnalysis")]
843    [TestProperty("Time", "short")]
844    public void MctsSymbRegBenchmarkNguyen9() {
845      //  sin(x) + sin(y²)
846      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider();
847      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F9 ")));
848      TestGrammarEnumeration(regProblem);
849    }
850
851    // [TestMethod]
852    [TestCategory("Algorithms.DataAnalysis")]
853    [TestProperty("Time", "short")]
854    public void MctsSymbRegBenchmarkNguyen10() {
855      // 2sin(x)cos(y)
856      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider();
857      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F10 ")));
858      TestGrammarEnumeration(regProblem);
859    }
860   
861    [TestMethod]
862    [TestCategory("Algorithms.DataAnalysis")]
863    [TestProperty("Time", "short")]
864    public void MctsSymbRegBenchmarkNguyen11() {
865      // x ^ y  , x > 0, y > 0   
866      // = exp(y * log(x))
867      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider(Seed);
868      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F11 ")));
869      TestGrammarEnumeration(regProblem);
870    }
871    [TestMethod]
872    [TestCategory("Algorithms.DataAnalysis")]
873    [TestProperty("Time", "short")]
874    public void MctsSymbRegBenchmarkNguyen12() {
875      // x^4 - x³ + y²/2 - y
876      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.NguyenInstanceProvider(Seed);
877      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("F12 ")));
878      TestGrammarEnumeration(regProblem);
879    }
880
881    [TestMethod]
882    [TestCategory("Algorithms.DataAnalysis")]
883    [TestProperty("Time", "long")]
884    public void MctsSymbRegBenchmarkKeijzer5() {
885      // (30 * x * z) / ((x - 10)  * y²)
886      // = 30 x z / (xy² - y²)
887      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
888      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 5 f(")));
889      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
890      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
891      TestGrammarEnumeration(regProblem);
892    }
893
894    [TestMethod]
895    [TestCategory("Algorithms.DataAnalysis")]
896    [TestProperty("Time", "short")]
897    public void MctsSymbRegBenchmarkKeijzer6() {
898      // Keijzer 6 f(x) = Sum(1 / i) From 1 to X  , x \in [0..120]
899      // we can only approximate this
900      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
901      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 6 f(")));
902      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
903      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
904      TestGrammarEnumeration(regProblem);
905    }
906
907    [TestMethod]
908    [TestCategory("Algorithms.DataAnalysis")]
909    [TestProperty("Time", "short")]
910    public void MctsSymbRegBenchmarkKeijzer8() {
911      // sqrt(x)
912      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
913      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 8 f(")));
914      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
915      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
916      TestGrammarEnumeration(regProblem);
917    }
918
919    [TestMethod]
920    [TestCategory("Algorithms.DataAnalysis")]
921    [TestProperty("Time", "short")]
922    public void MctsSymbRegBenchmarkKeijzer9() {
923      // arcsinh(x)  i.e. ln(x + sqrt(x² + 1))
924      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
925      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 9 f(")));
926      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
927      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
928      TestGrammarEnumeration(regProblem);
929    }
930
931    [TestMethod]
932    [TestCategory("Algorithms.DataAnalysis")]
933    [TestProperty("Time", "short")]
934    public void MctsSymbRegBenchmarkKeijzer11() {
935      // xy + sin( (x-1) (y-1) )
936      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider();
937      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 11 f(")));
938      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
939      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
940      TestGrammarEnumeration(regProblem);
941    }
942
943    [TestMethod]
944    [TestCategory("Algorithms.DataAnalysis")]
945    [TestProperty("Time", "short")]
946    public void MctsSymbRegBenchmarkKeijzer12() {
947      // x^4 - x³ + y² / 2 - y,  same as Nguyen 12             
948      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
949      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 12 f(")));
950      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
951      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
952      TestGrammarEnumeration(regProblem);
953    }
954
955    [TestMethod]
956    [TestCategory("Algorithms.DataAnalysis")]
957    [TestProperty("Time", "short")]
958    public void MctsSymbRegBenchmarkKeijzer14() {
959      // 8 / (2 + x² + y²)
960      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
961      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 14 f(")));
962      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
963      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
964      TestGrammarEnumeration(regProblem);
965    }
966
967    [TestMethod]
968    [TestCategory("Algorithms.DataAnalysis")]
969    [TestProperty("Time", "short")]
970    public void MctsSymbRegBenchmarkKeijzer15() {
971      // x³ / 5 + y³ / 2 - y - x
972      var provider = new HeuristicLab.Problems.Instances.DataAnalysis.KeijzerInstanceProvider(Seed);
973      var regProblem = provider.LoadData(provider.GetDataDescriptors().Single(x => x.Name.Contains("Keijzer 15 f(")));
974      // some Keijzer problem instances have very large test partitions (here we are not concerened about test performance)
975      if (regProblem.TestPartition.End - regProblem.TestPartition.Start > 1000) regProblem.TestPartition.End = regProblem.TestPartition.Start + 1000;
976      TestGrammarEnumeration(regProblem);
977    }
978#endif
979  }
980}
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