public List<LottoResult> GetTodaysNumbers(string path) { string[] lines = System.IO.File.ReadAllLines(path); var finalLines = lines.ToList(); finalLines.RemoveRange(0,5); var finalFinal = finalLines.GetRange(0, 200).ToList(); var finalResultList = new List<LottoResult>(); for (var x = 0; x < 200; x ++) { var row = finalFinal[x].Split(new char[0], StringSplitOptions.RemoveEmptyEntries); var lottoResult = new LottoResult(){DrawNumber = Int32.Parse(row[0]), NUM1 = Int32.Parse(row[5]), NUM2 = Int32.Parse(row[6]), NUM3 = Int32.Parse(row[7])}; finalResultList.Add(lottoResult); } const int sampleSize = 10; var testSample = finalResultList.GetRange(0, sampleSize).ToList(); var highPercentile = sampleSize *.55; var ascendTest = new AscendingNumbers(); var firstSecondThird = testSample.Count(t => ascendTest.FirstSecondThird(t.NUM1, t.NUM2, t.NUM3)); var firstThirdSecond = testSample.Count(t => ascendTest.FirstThirdSecond(t.NUM1, t.NUM2, t.NUM3)); var secondFirstThird = testSample.Count(t => ascendTest.SecondFirstThird(t.NUM1, t.NUM2, t.NUM3)); var secondThirdFirst = testSample.Count(t => ascendTest.SecondThirdFirst(t.NUM1, t.NUM2, t.NUM3)); var thirdFirstSecond = testSample.Count(t => ascendTest.ThirdFirstSecond(t.NUM1, t.NUM2, t.NUM3)); var thirdSecondFirst = testSample.Count(t => ascendTest.ThirdSecondFirst(t.NUM1, t.NUM2, t.NUM3)); var repeatingNumbers = new RepeatingNumbers(); var noRepeatNoRepeatNoRepeat = testSample.Count(t => repeatingNumbers.NoRepeatNoRepeatNoRepeat(t.NUM1, t.NUM2, t.NUM3)); var noRepeatRepeatRepeat = testSample.Count(t => repeatingNumbers.NoRepeatRepeatRepeat(t.NUM1, t.NUM2, t.NUM3)); var repeatNoRepeatRepeat = testSample.Count(t => repeatingNumbers.RepeatNoRepeatRepeat(t.NUM1, t.NUM2, t.NUM3)); var repeatRepeatNoRepeat = testSample.Count(t => repeatingNumbers.RepeatRepeatNoRepeat(t.NUM1, t.NUM2, t.NUM3)); var repeatRepeatRepeat = testSample.Count(t => repeatingNumbers.RepeatRepeatRepeat(t.NUM1, t.NUM2, t.NUM3)); var evenOdd = new EvenOdd(); var evenEvenEven = testSample.Count(t => evenOdd.EvenEvenEven(t.NUM1, t.NUM2, t.NUM3)); var evenEvenOdd = testSample.Count(t => evenOdd.EvenEvenOdd(t.NUM1, t.NUM2, t.NUM3)); var evenOddEven = testSample.Count(t => evenOdd.EvenOddEven(t.NUM1, t.NUM2, t.NUM3)); var evenOddOdd = testSample.Count(t => evenOdd.EvenOddOdd(t.NUM1, t.NUM2, t.NUM3)); var oddEvenEven = testSample.Count(t => evenOdd.OddEvenEven(t.NUM1, t.NUM2, t.NUM3)); var oddEvenOdd = testSample.Count(t => evenOdd.OddEvenOdd(t.NUM1, t.NUM2, t.NUM3)); var oddOddEven = testSample.Count(t => evenOdd.OddOddEven(t.NUM1, t.NUM2, t.NUM3)); var oddOddOdd = testSample.Count(t => evenOdd.OddOddOdd(t.NUM1, t.NUM2, t.NUM3)); int total = 0; var consecutiveDraws = new ConsecutiveDraws(); for (var c = 0; c < testSample.Count; c ++) { if (c + 1 < testSample.Count) { var current = testSample[c]; var next = testSample[c + 1]; if (consecutiveDraws.NextDrawHasOnlyOneNumberFromPrevious(current, next)) { total ++; } } } return finalResultList; }
public void OddEvenEven() { var evenOdd = new EvenOdd(); var pass = evenOdd.OddEvenEven(1, 2, 2); var fail = evenOdd.OddEvenEven(5, 7, 4); Assert.IsTrue(pass); Assert.IsFalse(fail); }