public void ReverseUtils_ConvertBooleanToStringYN2() { bool? boolean = false; string result = ReverseUtils.ConvertBooleanToStringYN(boolean); Assert.AreEqual("N", result); }
public void ReverseUtils_ConvertBooleanToStringYN3() { bool? boolean = null; string result = ReverseUtils.ConvertBooleanToStringYN(boolean); Assert.AreEqual(null, result); }
public void ReverseUtils_ConvertBooleanToStringON1() { bool? boolean = true; string result = ReverseUtils.ConvertBooleanToStringON(boolean); Assert.AreEqual("O", result); }
public void ReverseUtils_ConvertStringToBooleanYN4() { string stringValue = null; bool? result = ReverseUtils.ConvertStringToBooleanYN(stringValue); Assert.AreEqual(null, result); }
public void ReverseUtils_IsStringLowValue4() { string s = "a" + '\u0000'; bool? result = ReverseUtils.IsStringLowValue(s); Assert.IsNotNull(result); Assert.AreEqual(false, result.Value); }
public void ReverseUtils_IsStringHighValue3() { string s = "a"; bool? result = ReverseUtils.IsStringHighValue(s); Assert.IsNotNull(result); Assert.AreEqual(false, result.Value); }
public void ReverseUtils_IsStringHighValue2() { string s = "" + '\u009F' + '\u009F'; bool? result = ReverseUtils.IsStringHighValue(s); Assert.IsNotNull(result); Assert.AreEqual(true, result.Value); }
public void ReverseUtils_IsCharLowValue2() { char character = '!'; bool?result = ReverseUtils.IsCharLowValue(character); Assert.IsNotNull(result); Assert.AreEqual(false, result.Value); }
public void ReverseUtils_IsCharLowValue1() { char character = '\u0000'; bool?result = ReverseUtils.IsCharLowValue(character); Assert.IsNotNull(result); Assert.AreEqual(true, result.Value); }
public void ReverseUtils_IsSpaces6() { object objet = new object(); bool? result = ReverseUtils.IsSpaces(objet); Assert.IsNotNull(result); Assert.AreEqual(true, result.Value); }
public void ReverseUtils_ConvertStringToBooleanYN3() { string stringValue = "Y"; bool? result = ReverseUtils.ConvertStringToBooleanYN(stringValue); Assert.IsNotNull(result); Assert.AreEqual(true, result.Value); }
public void ReverseUtils_ConvertStringToBooleanON1() { string stringValue = "N"; bool? result = ReverseUtils.ConvertStringToBooleanON(stringValue); Assert.IsNotNull(result); Assert.AreEqual(false, result.Value); }
public WavFileGenerationResult WriteSoundData(int divider, bool doReverse, BackgroundWorker worker, DoWorkEventArgs args) { //Leaving all parameters in this method - we might want to pass them from the UI with eventArgs int sampleRate = 44100; short channels = 6; int columnOffset = 3; int precision = 1000; int maxPossibleValue = 20; var header = CreateHeader(channels, sampleRate); int linesCount = GetSourceFileLinesCount(_fileName, worker); int linesinCsv = linesCount - channels; string srcFileName = doReverse ? ReverseUtils.ReverseCsvFile(_fileName, linesinCsv, channels, _encoding) : _fileName; string dstFileName = srcFileName + "." + divider + ".wav"; using var reader = new StreamReader(new BufferedStream(new FileStream(srcFileName, FileMode.Open)), _encoding); SkipCsvHeader(channels, reader); using var writer = new BinaryWriter(new BufferedStream(new FileStream(dstFileName, FileMode.Create))); writer.Write(header); string line; int fileLenBytes = header.Length; int linesProcessed = 0; while ((line = reader.ReadLine()) != null && !worker.CancellationPending) { var data = processLine(line, channels, columnOffset, precision, divider, maxPossibleValue); var bytesWritten = WriteSingleSample(1, sampleRate, writer, data); fileLenBytes += bytesWritten; linesProcessed++; worker.ReportProgress(linesProcessed * 100 / linesinCsv); } WriteHeader(AddFileLengthToHeader(header, fileLenBytes), writer); args.Cancel = worker.CancellationPending; return(new WavFileGenerationResult(dstFileName, fileLenBytes)); }