[11659] | 1 | using System;
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| 2 | using System.Diagnostics;
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| 3 | using System.Linq;
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| 4 | using Microsoft.VisualStudio.TestTools.UnitTesting;
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| 5 |
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| 6 | namespace HeuristicLab.Problems.GrammaticalOptimization.Test {
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| 7 | [TestClass]
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| 8 | public class TestInstances {
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| 9 | [TestMethod]
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| 10 | public void TestGrammarFromString() {
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| 11 | {
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| 12 | var g = Grammar.FromString(@"
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| 13 |
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| 14 | G(S):
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| 15 | S -> aA | bB
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| 16 | A -> a | aA
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| 17 | B -> Bb | b
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| 18 | ");
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| 19 | Assert.AreEqual('S', g.SentenceSymbol);
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| 20 | Assert.AreEqual(2, g.TerminalSymbols.Count());
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| 21 | Assert.AreEqual(3, g.NonTerminalSymbols.Count());
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| 22 | Assert.IsTrue(g.TerminalSymbols.All(s => new char[] { 'a', 'b' }.Contains(s)));
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| 23 | Assert.IsTrue(g.NonTerminalSymbols.All(s => new char[] { 'S', 'A', 'B' }.Contains(s)));
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| 24 |
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| 25 | Assert.AreEqual(2, g.GetAlternatives('S').Count());
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| 26 | Assert.AreEqual(2, g.GetAlternatives('A').Count());
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| 27 | Assert.AreEqual(2, g.GetAlternatives('B').Count());
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| 28 |
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[11730] | 29 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "aA"));
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| 30 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "bB"));
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| 31 | Assert.IsTrue(g.GetAlternatives('A').Any(s => s.ToString() == "aA"));
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| 32 | Assert.IsTrue(g.GetAlternatives('A').Any(s => s.ToString() == "a"));
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| 33 | Assert.IsTrue(g.GetAlternatives('B').Any(s => s.ToString() == "Bb"));
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| 34 | Assert.IsTrue(g.GetAlternatives('B').Any(s => s.ToString() == "b"));
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[11659] | 35 |
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[11730] | 36 | Assert.AreEqual(2, g.MinPhraseLength(new Sequence("S")));
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| 37 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("S")));
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| 38 | Assert.AreEqual(1, g.MinPhraseLength(new Sequence("A")));
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| 39 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("A")));
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| 40 | Assert.AreEqual(1, g.MinPhraseLength(new Sequence("B")));
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| 41 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("B")));
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[11659] | 42 | }
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| 43 |
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| 44 | {
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| 45 | var g = Grammar.FromString(@"
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| 46 |
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| 47 | G(S):
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| 48 | S -> sS
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| 49 | ");
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| 50 | Assert.AreEqual('S', g.SentenceSymbol);
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| 51 | Assert.AreEqual(1, g.TerminalSymbols.Count());
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| 52 | Assert.AreEqual(1, g.NonTerminalSymbols.Count());
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| 53 | Assert.IsTrue(g.TerminalSymbols.All(s => new char[] { 's' }.Contains(s)));
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| 54 | Assert.IsTrue(g.NonTerminalSymbols.All(s => new char[] { 'S' }.Contains(s)));
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| 55 |
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| 56 | Assert.AreEqual(1, g.GetAlternatives('S').Count());
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| 57 |
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[11730] | 58 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "sS"));
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[11659] | 59 |
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[11730] | 60 | Assert.AreEqual(short.MaxValue, g.MinPhraseLength(new Sequence("S")));
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| 61 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("S")));
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[11659] | 62 | }
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| 63 |
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| 64 | {
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| 65 | var g = Grammar.FromString(@"
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| 66 |
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| 67 | G(S):
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| 68 | S->sss|sS");
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| 69 | Assert.AreEqual('S', g.SentenceSymbol);
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| 70 | Assert.AreEqual(1, g.TerminalSymbols.Count());
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| 71 | Assert.AreEqual(1, g.NonTerminalSymbols.Count());
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| 72 | Assert.IsTrue(g.TerminalSymbols.All(s => new char[] { 's' }.Contains(s)));
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| 73 | Assert.IsTrue(g.NonTerminalSymbols.All(s => new char[] { 'S' }.Contains(s)));
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| 74 |
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| 75 | Assert.AreEqual(2, g.GetAlternatives('S').Count());
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| 76 |
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[11730] | 77 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "sss"));
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| 78 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "sS"));
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[11659] | 79 |
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[11730] | 80 | Assert.AreEqual(3, g.MinPhraseLength(new Sequence("S")));
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| 81 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("S")));
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| 82 | Assert.AreEqual(4, g.MinPhraseLength(new Sequence("sS")));
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| 83 | Assert.AreEqual(7, g.MinPhraseLength(new Sequence("sSS")));
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| 84 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("sSS")));
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| 85 | Assert.AreEqual(3, g.MaxPhraseLength(new Sequence("sss")));
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| 86 | Assert.AreEqual(3, g.MinPhraseLength(new Sequence("sss")));
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[11659] | 87 | }
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| 88 |
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| 89 | {
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| 90 | var g = Grammar.FromString(@"
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| 91 |
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| 92 | G(S):
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| 93 | S->T|TS
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| 94 | T-> a..z
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| 95 | ");
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| 96 | Assert.AreEqual('S', g.SentenceSymbol);
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| 97 | Assert.AreEqual(26, g.TerminalSymbols.Count());
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| 98 | Assert.AreEqual(2, g.NonTerminalSymbols.Count());
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| 99 | Assert.IsTrue(g.NonTerminalSymbols.All(s => new char[] { 'S', 'T' }.Contains(s)));
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| 100 |
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| 101 | Assert.AreEqual(2, g.GetAlternatives('S').Count());
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| 102 |
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[11730] | 103 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "T"));
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| 104 | Assert.IsTrue(g.GetAlternatives('S').Any(s => s.ToString() == "TS"));
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[11659] | 105 |
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[11730] | 106 | Assert.AreEqual(1, g.MinPhraseLength(new Sequence("S")));
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| 107 | Assert.AreEqual(short.MaxValue, g.MaxPhraseLength(new Sequence("S")));
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| 108 | Assert.AreEqual(1, g.MinPhraseLength(new Sequence("T")));
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| 109 | Assert.AreEqual(1, g.MaxPhraseLength(new Sequence("T")));
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[11659] | 110 | }
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| 111 |
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| 112 | }
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| 113 |
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| 114 | [TestMethod]
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| 115 | public void TestRoyalSymbolProblem() {
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| 116 | var p = new RoyalSymbolProblem();
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| 117 | Console.WriteLine(p.Grammar);
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| 118 |
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| 119 | Assert.AreEqual(1, p.Evaluate("ab"));
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| 120 | Assert.AreEqual(0, p.Evaluate("bb"));
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| 121 | Assert.AreEqual(2, p.Evaluate("aa"));
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| 122 | Assert.AreEqual(3, p.Evaluate("aaa"));
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| 123 | }
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| 124 |
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| 125 |
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| 126 | [TestMethod]
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| 127 | public void TestRoyalPairProblem() {
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| 128 | var p = new RoyalPairProblem();
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| 129 | Console.WriteLine(p.Grammar);
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| 130 |
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| 131 | Assert.AreEqual(1, p.Evaluate("ab"));
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| 132 | Assert.AreEqual(0, p.Evaluate("bb"));
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| 133 | Assert.AreEqual(0, p.Evaluate("aa"));
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| 134 | Assert.AreEqual(0, p.Evaluate("aaa"));
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| 135 | Assert.AreEqual(2, p.Evaluate("aba"));
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| 136 | Assert.AreEqual(2, p.Evaluate("abba"));
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| 137 | Assert.AreEqual(3, p.Evaluate("abab"));
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| 138 | }
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| 139 |
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| 140 | [TestMethod]
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| 141 | public void TestSantaFeAntProblem() {
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| 142 | var p = new SantaFeAntProblem();
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| 143 | Console.WriteLine(p.Grammar);
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| 144 |
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| 145 | // one possible optimal solution: if-food-ahead (move) ( left left if-food-ahead (move) (right)) move right
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| 146 | Assert.AreEqual(89, p.Evaluate("?(m)(ll?(m)(r))mr"));
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| 147 | }
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| 148 |
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| 149 | [TestMethod]
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| 150 | public void TestRoyalRoadProblem() {
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| 151 | var p = new RoyalRoadProblem();
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| 152 | Console.WriteLine(p.Grammar);
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| 153 |
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| 154 | }
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| 155 | [TestMethod]
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| 156 | public void TestPalindromeProblem() {
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| 157 | Assert.AreEqual("aba", PalindromeProblem.LongestPalindromicSubstring("aba"));
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| 158 | Assert.AreEqual("aba", PalindromeProblem.LongestPalindromicSubstring("aaba"));
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| 159 | Assert.AreEqual("aba", PalindromeProblem.LongestPalindromicSubstring("abaa"));
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| 160 | Assert.AreEqual("aabaa", PalindromeProblem.LongestPalindromicSubstring("aaaabaa"));
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| 161 | Assert.AreEqual("aabaa", PalindromeProblem.LongestPalindromicSubstring("aabaaaa"));
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| 162 | Assert.AreEqual("baaaab", PalindromeProblem.LongestPalindromicSubstring("aabaaaab"));
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| 163 |
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| 164 |
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| 165 | var p = new PalindromeProblem();
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| 166 | Console.WriteLine(p.Grammar);
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| 167 |
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| 168 | Assert.AreEqual(1, p.Evaluate("a"));
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| 169 | Assert.AreEqual(2, p.Evaluate("aa"));
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| 170 | Assert.AreEqual(3, p.Evaluate("aaa"));
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| 171 | Assert.AreEqual(3, p.Evaluate("aba"));
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| 172 | Assert.AreEqual(3, p.Evaluate("baba"));
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| 173 | Assert.AreEqual(3, p.Evaluate("abab"));
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| 174 | Assert.AreEqual(5, p.Evaluate("babab"));
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| 175 | }
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| 176 | [TestMethod]
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| 177 | public void TestHardPalindromeProblem() {
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| 178 | var p = new HardPalindromeProblem();
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| 179 | Console.WriteLine(p.Grammar);
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| 180 |
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| 181 | Assert.AreEqual(1 + 1, p.Evaluate("a"));
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| 182 | Assert.AreEqual(2 + 1, p.Evaluate("aa"));
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| 183 | Assert.AreEqual(3 + 1, p.Evaluate("aaa"));
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| 184 | Assert.AreEqual(3 + 2, p.Evaluate("aba"));
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| 185 | Assert.AreEqual(3 + 2, p.Evaluate("baba"));
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| 186 | Assert.AreEqual(3 + 2, p.Evaluate("abab"));
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| 187 | Assert.AreEqual(5 + 2, p.Evaluate("babab"));
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| 188 | Assert.AreEqual(5 + 3, p.Evaluate("bacab"));
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| 189 | }
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| 190 |
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| 191 | [TestMethod]
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| 192 | public void TestEvenParityProblem() {
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| 193 | var p = new EvenParityProblem();
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| 194 | Console.WriteLine(p.Grammar);
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| 195 |
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| 196 | // a | b | c | d | res
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| 197 | // 0 | 0 | 0 | 0 | 1
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| 198 | // 0 | 0 | 0 | 1 | 0
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| 199 | // 0 | 0 | 1 | 0 | 0
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| 200 | // 0 | 0 | 1 | 1 | 1
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| 201 | // 0 | 1 | 0 | 0 | 0
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| 202 | // 0 | 1 | 0 | 1 | 1
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| 203 | // 0 | 1 | 1 | 0 | 1
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| 204 | // 0 | 1 | 1 | 1 | 0
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| 205 | // 1 | 0 | 0 | 0 | 0
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| 206 | // 1 | 0 | 0 | 1 | 1
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| 207 | // 1 | 0 | 1 | 0 | 1
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| 208 | // 1 | 0 | 1 | 1 | 0
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| 209 | // 1 | 1 | 0 | 0 | 1
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| 210 | // 1 | 1 | 0 | 1 | 0
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| 211 | // 1 | 1 | 1 | 0 | 0
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| 212 | // 1 | 1 | 1 | 1 | 1
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| 213 |
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| 214 |
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| 215 | Assert.AreEqual(8, p.Evaluate("a"));
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| 216 | Assert.AreEqual(8, p.Evaluate("b"));
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| 217 | Assert.AreEqual(8, p.Evaluate("c"));
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| 218 | Assert.AreEqual(8, p.Evaluate("d"));
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| 219 |
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| 220 | Assert.AreEqual(8, p.Evaluate("a*b")); // a and b
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| 221 | Assert.AreEqual(8, p.Evaluate("a+b")); // a or b
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| 222 | Assert.AreEqual(8, p.Evaluate("!a*b+a*!b")); // a xor b
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| 223 | Assert.AreEqual(8, p.Evaluate("!(a*b)+(a*!b)")); // a xor b
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| 224 | Assert.AreEqual(16, p.Evaluate("a^b^c^d")); // a xor b
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| 225 | }
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| 226 |
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| 227 | [TestMethod]
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| 228 | public void TestSymbolicRegressionPoly10Problem() {
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| 229 | var p = new SymbolicRegressionPoly10Problem();
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| 230 | Console.WriteLine(p.Grammar);
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| 231 |
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| 232 | Assert.AreEqual(0.00319925877644673, p.Evaluate("a"), 1.0E-7);
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| 233 | Assert.AreEqual(0.00632775454329686, p.Evaluate("b"), 1.0E-7);
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| 234 | Assert.AreEqual(0.00569030954291292, p.Evaluate("c"), 1.0E-7);
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| 235 | Assert.AreEqual(3.32317092313123E-05, p.Evaluate("d"), 1.0E-7);
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| 236 | Assert.AreEqual(0.000562538829174826, p.Evaluate("e"), 1.0E-7);
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| 237 | Assert.AreEqual(3.29458942533772E-06, p.Evaluate("f"), 1.0E-7);
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| 238 | Assert.AreEqual(0.000193866006166768, p.Evaluate("g"), 1.0E-7);
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| 239 | Assert.AreEqual(2.83339004096246E-05, p.Evaluate("h"), 1.0E-7);
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| 240 | Assert.AreEqual(0.00291584574914239, p.Evaluate("i"), 1.0E-7);
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| 241 | Assert.AreEqual(0.00504038616701691, p.Evaluate("j"), 1.0E-7);
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| 242 |
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| 243 | Assert.AreEqual(0.252718466940018, p.Evaluate("a*b"), 1.0E-7);
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[11730] | 244 | Assert.AreEqual(0.290635611728845, p.Evaluate("c*d"), 1.0E-7);
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| 245 | Assert.AreEqual(0.25737325167716, p.Evaluate("e*f"), 1.0E-7);
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| 246 |
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[11659] | 247 | Assert.AreEqual(0.00173739472363473, p.Evaluate("b*c"), 1.0E-7);
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| 248 | Assert.AreEqual(3.15450564064128E-05, p.Evaluate("d*e"), 1.0E-7);
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| 249 |
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[11730] | 250 | Assert.AreEqual(0.0943358163760454, p.Evaluate("a*g*i"), 1.0E-7);
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| 251 | Assert.AreEqual(0.116199534934045, p.Evaluate("c*f*j"), 1.0E-7);
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| 252 |
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[11747] | 253 | Assert.AreEqual(0.824522210419616, p.Evaluate("a*b+c*d+e*f"), 1E-7);
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[11730] | 254 |
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[11747] | 255 |
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[11659] | 256 | Assert.AreEqual(1.0, p.Evaluate("a*b+c*d+e*f+a*g*i+c*f*j"), 1.0E-7);
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| 257 | }
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[11865] | 258 |
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| 259 | [TestMethod]
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| 260 | public void TestRoyalTreeProblem() {
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| 261 | var p = new RoyalTreeProblem(7);
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| 262 | Console.WriteLine(p.Grammar);
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| 263 |
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| 264 | // examples from The Royal Tree Problem, a Benchmark for Single and Multi-population Genetic Programming (Punch, Zongker, Goodman)
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| 265 | Assert.AreEqual(4, p.Evaluate("ax"), 1.0E-7);
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| 266 | Assert.AreEqual(384.0, p.Evaluate("cbaxaxbaxaxbaxax"), 1.0E-7);
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| 267 | Assert.AreEqual(128.66, p.Evaluate("cbaxaxbaxaxbxx"), 1.0E-7);
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| 268 | Assert.AreEqual(64.66, p.Evaluate("cbaxaxxx"), 1.0E-7);
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| 269 |
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| 270 | }
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[11659] | 271 | }
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| 272 | }
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