private string Munge(string source) { // split by LINES // go through each line, random offset var result = Regex.Split(source, "\r\n|\r|\n"); var sb = new StringBuilder(); foreach (var line in result) { if (line.Length > 0) // don't waste energy on empty lines. but do preserve them { var op = TransformerTools.GetPercentage(); if (op <= ProbabilityOffset) { // TODO: add to TransformerTools ??? var variance = _rnd.Next(-OffsetVariance, OffsetVariance); var spaceNbr = Offset + variance; var spaces = new string(' ', spaceNbr); sb.Append(spaces); } } sb.Append(line).Append(Environment.NewLine); // invariant } return(sb.ToString()); }
private string Munge(string source) { var words = new TextTokenizer(Granularity.Word, source).Tokens; var sb = new StringBuilder(); foreach (var word in words) { sb.Append(word); var newline = TransformerTools.GetPercentage(); if (newline <= ProbabilityNewLine) { var lines = 1; var mult = TransformerTools.GetPercentage(); if (mult <= ProbabilityMultiple) { lines += _rnd.Next(0, MultipleRange); } for (int i = 0; i < lines; i++) { sb.Append(Environment.NewLine); } } else { // random number of spaces ? sb.Append(" "); } } return(sb.ToString()); }
private string Munge(string source) { var c = source.ToLower().ToCharArray(); for (var i = 0; i < c.Length; ++i) { if (TransformerTools.GetPercentage() > 50) { c[i] = c[i].ToString().ToUpper().ToCharArray()[0]; } } return(new string(c)); }