public void CalculateAverage_WordLength_ReturnsDoubleAverageWordLength(string text, double expectedResult) { //Act var result = WordLength.CalculateAverage(text); //Assert Assert.That(result, Is.EqualTo(expectedResult)); }
static void Main(string[] args) { //A method which allows to define an average word length in an input string (returns double) string pathToText = @"EnglishIT.txt"; Files.CreateFileWithText(pathToText); string text = FileProvider.Get(pathToText); Console.WriteLine("An average word length is {0:0.000}", WordLength.CalculateAverage(text)); Console.WriteLine(); //A method that doubles in the first string parameter all characters belonging the second string parameter Console.WriteLine("Print a string, that you want to double:"); string firstString = UserData.CheckInput(); Console.WriteLine("Print another string with letters you want to double:"); string secondString = UserData.CheckInput(); string doubled = StringParametr.DoubleLetters(firstString, secondString); Console.WriteLine($"The string was doubled - {doubled}"); Console.WriteLine(); //A method, that returns the sum of two big numbers (bigger than long) string pathToNumbers = @"NumbersFromString.txt"; Files.CreateFileWithNumbersFromString(pathToNumbers); string firstNumber = FileProvider.GetAstring(pathToNumbers, 0); string secondNumber = FileProvider.GetAstring(pathToNumbers, 1); Console.WriteLine("First number from file, that we want to sum is: {0}", firstNumber); Console.WriteLine("Second number from file, that we want to sum is: {0}", secondNumber); string summary = Sum.Calculate(firstNumber, secondNumber); Console.WriteLine($"The strings was summed : {summary}"); Console.WriteLine(); //A method which reverses all of the words within the string passed in string pathToSentence = @"EnglishIT.txt"; string sentence = FileProvider.GetAstring(pathToSentence, 0); Console.WriteLine("The first string from file, that we want to reverse: {0}", sentence); string reversedSentence = Words.Reverse(sentence); Console.WriteLine($"The strings reversed : {reversedSentence}"); Console.WriteLine(); //A method that takes a string which contains text with phone numbers and saves the numbers to file string pathToTextWithNumbers = @"C:Text.txt"; Files.CreateTextWithNumbers(pathToTextWithNumbers); text = FileProvider.Get(pathToTextWithNumbers); List <string> phoneNumbers = PhoneNumbers.GetFromTheText(text); Console.WriteLine(); Console.WriteLine("A file Numbers.txt was created"); Console.ReadKey(); }
public void Count_Expected_4_2_1_4_8() { var wordLength = new WordLength(); var expectedNumbrs = new List <int>() { 4, 2, 1, 4, 8 }; List <int> actualNumbers = wordLength.Count("This is a long sentence"); CollectionAssert.AreEqual(expectedNumbrs, actualNumbers); }
private static WordLength[] BuildWordLengths(string[] words) { var wordLengths = new WordLength[words.Length]; for (var i = 0; i < words.Length; i++) { wordLengths[i] = new WordLength { AlphabetMap = BuildAlphabetMap(words[i]), Length = words[i].Length, Word = words[i] }; } return(wordLengths); }
public static void Main() { string[] transactions = { "bob,627,1973,amsterdam", "alex,387,885,bangkok", "alex,355,1029,barcelona", "alex,587,402,bangkok", "chalicefy,973,830,barcelona", "alex,932,86,bangkok", "bob,188,989,amsterdam" }; int[] test = { 0, 1, 2, 3, 4, 5, 6, 0, 1 }; int[] test2 = { 1, 3, 5, 2 }; string[] tests = { "bella", "label", "roller" }; string input2 = "10#11#12"; string something = Program.Mapping.FreqAlphabets(input2); Ranks instanceOfRanks = new Ranks(); string[] medals = instanceOfRanks.FindRelativeRanks(test2); int response4 = WordLength.LengthOfLastWord("b a "); IList <int> response2 = Program.SelfDivide.SelfDividingNumbers(1, 22); IList <string> transactionsResponse = Program.Invalid.InvalidTransactions(transactions); int[] response = ArrayIntersect.Intersect(test, test2); response = ArrayParity.SortArrayByParity(test); IList <int> smallAnswer = Smaller.CountSmaller(test); IList <string> answers = Common.GetValues(tests); int [] answer = Smaller.SmallerNumbersThanCurrent(test); // int response = ReduceToZero.NumberOfSteps(14); //response = Max69.Maximum69Number(9669); ListNode head = new ListNode(1); ListNode second = new ListNode(0); head.next = second; ListNode third = new ListNode(1); second.next = third; GetDecimalValue.GetDecimal(head); BalancedString.GetBalancedCount("RLRRRLLRLL"); string stones = "aAAbbbb"; string jewels = "aA"; int count = JewelsAndStones.GetJewelCount(jewels, stones); int[] digits = { 12, 345, 2, 6, 7896 }; int J = EvenDigits.NumEvenDigits(digits); int i = SubtractProdAndSum.SubtractProductAndSum(234); char[] values = new char[] { 'a', 'a', 'b', 'b', 'c', 'c', 'c' }; StringCompression.StringCompression.Compress(values); int[] input = new int[] { 3, 2, 3, 4, 3, 3 }; Console.WriteLine("Result is: {1}", Decompress.Decompress.DecompressRLElist(input)); }
public async Task Decode() { /* --Structure-- * word length : byte * original file length in bytes : long * tree : Bit... * code : Bit... */ //Reading word length, original file length this.wordLength = (byte)await reader.ReadCustomLength(8); long originalFileLength = (long)await reader.ReadCustomLength(64); WordLength?.Invoke(this.wordLength, originalFileLength); if (originalFileLength > 0) { //Parsing tree from bits TreeNode root = await ParseDecodeTreeAsync(); //Creating decode table Dictionary <long?, (long?code, int codeLength)> encodingTable = await CreateEncodingsAsync(root); decimal bytesWritten = 0; decimal wordToBytes = ((decimal)this.wordLength) / 8; while (bytesWritten + wordToBytes <= originalFileLength) { TreeNode branch = root; while (branch.leaf == null) { long?currentBit = await reader.ReadCustomLength(1); branch = currentBit == 1 ? branch.Right : branch.Left; } bytesWritten += wordToBytes; await this.writer.WriteCustomLength((long)branch.leaf, this.wordLength); WordsWritten?.Invoke(1); } TreeNode branch2 = root; var da = (((decimal)originalFileLength) - bytesWritten); var remainder = (8 * (((decimal)originalFileLength) - bytesWritten)); if (remainder > 0) { while (true) { long?currentBit = await reader.ReadCustomLength(1); branch2 = currentBit == 1 ? branch2.Right : branch2.Left; if (branch2.leaf != null) { bytesWritten += wordToBytes; var d = (int)(remainder * this.wordLength); await this.writer.WriteCustomLength((long)(branch2.leaf >> (this.wordLength - (int)remainder)), (int)remainder); WordsWritten?.Invoke(1); break; } } } } //Save //await this.writer.FlushBuffer(); }