public void TestEmptyFactorsToTokensReturnsInput() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> >(); OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(55); Assert.AreEqual("55", actual); }
public void TestOutputSingleFactorTest() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(3, "Fizz") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(3); Assert.AreEqual("Fizz", actual); }
public void TestDuplicateFactorsAreAllowed() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(2, "Chicken"), new KeyValuePair <int, string>(2, "Turkey") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(2); Assert.AreEqual("ChickenTurkey", actual); }
public void TestNoFactorsReturnsInput() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(2, "Bear"), new KeyValuePair <int, string>(3, "Deer") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(7); Assert.AreEqual("7", actual); }
public void TestZeroAcceptsAllFactors() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(2, "Bear"), new KeyValuePair <int, string>(3, "Deer") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(0); Assert.AreEqual("BearDeer", actual); }
public void TestFactorOnNegativeInput() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(2, "Cat"), new KeyValuePair <int, string>(3, "Duck") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(-12); Assert.AreEqual("CatDuck", actual); }
public void TestOutputMultipleFactorsOrderIsRespectedTest() { IList <KeyValuePair <int, string> > factorsToTokens = new List <KeyValuePair <int, string> > { new KeyValuePair <int, string>(4, "Bang"), new KeyValuePair <int, string>(2, "Fizz"), new KeyValuePair <int, string>(3, "Buzz") }; OutputTokenizer outputTokenizer = new OutputTokenizer(factorsToTokens); string actual = outputTokenizer.GetOutputString(12); Assert.AreEqual("BangFizzBuzz", actual); }
static void Main(string[] args) { WindowCreateInfo windowCI = new WindowCreateInfo() { X = 1920, Y = 100, WindowWidth = 1920, WindowHeight = 1920, WindowTitle = "Veldrid Tutorial" }; Sdl2Window window = VeldridStartup.CreateWindow(ref windowCI); _graphicsDevice = VeldridStartup.CreateGraphicsDevice(window, GraphicsBackend.OpenGL); CreateResources(window); var pty = new LinuxPty(); var readStream = new ConsoleLoggingStream(pty.ReadStream, "READ"); var writeStream = new ConsoleLoggingStream(pty.WriteStream, "WRIT"); var charsWidth = (int)(window.Width / (float)_fontAtlas.CellWidth); var charsHeight = (int)(window.Height / (float)_fontAtlas.CellHeight); pty.SetSize(charsWidth, charsHeight); _tokenizer = new OutputTokenizer(_textLayout); var inputProcessor = new InputKeyStreamer { OutStream = writeStream }; #pragma warning disable 4014 PipePtyToScreen(readStream); #pragma warning restore 4014 while (window.Exists) { var input = window.PumpEvents(); inputProcessor.ProcessToStream(input); if (window.Exists) { Draw(); } } DisposeResources(); }