/// <summary> /// Parse hexadecimal field /// </summary> protected bool ParseHexadecimal(TextParser input, FormatSpecifier spec) { // Skip any whitespace input.MovePastWhitespace(); // Parse 0x prefix int start = input.Position; if (input.Peek() == '0' && input.Peek(1) == 'x') { input.MoveAhead(2); } // Parse digits while (IsValidDigit(input.Peek(), 16)) { input.MoveAhead(); } // Don't exceed field width if (spec.Width > 0) { int count = input.Position - start; if (spec.Width < count) { input.MoveAhead(spec.Width - count); } } // Extract token if (input.Position > start) { if (!spec.NoResult) { AddUnsigned(input.Extract(start, input.Position), spec.Modifier, 16); } return(true); } return(false); }
/// <summary> /// Parse integer field /// </summary> private bool ParseDecimal(TextParser input, FormatSpecifier spec) { int radix = 10; // Skip any whitespace input.MovePastWhitespace(); // Parse leading sign int start = input.Position; if (input.Peek() == '+' || input.Peek() == '-') { input.MoveAhead(); } else if (input.Peek() == '0') { if (Char.ToLower(input.Peek(1)) == 'x') { radix = 16; input.MoveAhead(2); } else { radix = 8; input.MoveAhead(); } } // Parse digits while (IsValidDigit(input.Peek(), radix)) { input.MoveAhead(); } // Don't exceed field width if (spec.Width > 0) { int count = input.Position - start; if (spec.Width < count) { input.MoveAhead(spec.Width - count); } } // Extract token if (input.Position > start) { if (!spec.NoResult) { if (spec.Type == Types.Decimal) { AddSigned(input.Extract(start, input.Position), spec.Modifier, radix); } else { AddUnsigned(input.Extract(start, input.Position), spec.Modifier, radix); } } return(true); } return(false); }
/// <summary> /// Parse a floating-point field /// </summary> private bool ParseFloat(TextParser input, FormatSpecifier spec) { // Skip any whitespace input.MovePastWhitespace(); // Parse leading sign int start = input.Position; if (input.Peek() == '+' || input.Peek() == '-') { input.MoveAhead(); } // Parse digits bool hasPoint = false; while (Char.IsDigit(input.Peek()) || input.Peek() == '.') { if (input.Peek() == '.') { if (hasPoint) { break; } hasPoint = true; } input.MoveAhead(); } // Parse exponential notation if (Char.ToLower(input.Peek()) == 'e') { input.MoveAhead(); if (input.Peek() == '+' || input.Peek() == '-') { input.MoveAhead(); } while (Char.IsDigit(input.Peek())) { input.MoveAhead(); } } // Don't exceed field width if (spec.Width > 0) { int count = input.Position - start; if (spec.Width < count) { input.MoveAhead(spec.Width - count); } } // Because we parse the exponential notation before we apply // any field-width constraint, it becomes awkward to verify // we have a valid floating point token. To prevent an // exception, we use TryParse() here instead of Parse(). double result; // Extract token if (input.Position > start && double.TryParse(input.Extract(start, input.Position), out result)) { if (!spec.NoResult) { if (spec.Modifier == Modifiers.Long || spec.Modifier == Modifiers.LongLong) { Results.Add(result); } else { Results.Add((float)result); } } return(true); } return(false); }
/// <summary> /// Attempts to parse a field format specifier from the format string. /// </summary> protected bool ParseFormatSpecifier(TextParser format, FormatSpecifier spec) { // Return if not a field format specifier if (format.Peek() != '%') { return(false); } format.MoveAhead(); // Return if "%%" (treat as '%' literal) if (format.Peek() == '%') { return(false); } // Test for asterisk, which indicates result is not stored if (format.Peek() == '*') { spec.NoResult = true; format.MoveAhead(); } else { spec.NoResult = false; } // Parse width int start = format.Position; while (Char.IsDigit(format.Peek())) { format.MoveAhead(); } if (format.Position > start) { spec.Width = int.Parse(format.Extract(start, format.Position)); } else { spec.Width = 0; } // Parse modifier if (format.Peek() == 'h') { format.MoveAhead(); if (format.Peek() == 'h') { format.MoveAhead(); spec.Modifier = Modifiers.ShortShort; } else { spec.Modifier = Modifiers.Short; } } else if (Char.ToLower(format.Peek()) == 'l') { format.MoveAhead(); if (format.Peek() == 'l') { format.MoveAhead(); spec.Modifier = Modifiers.LongLong; } else { spec.Modifier = Modifiers.Long; } } else { spec.Modifier = Modifiers.None; } // Parse type switch (format.Peek()) { case 'c': spec.Type = Types.Character; break; case 'd': case 'i': spec.Type = Types.Decimal; break; case 'a': case 'A': case 'e': case 'E': case 'f': case 'F': case 'g': case 'G': spec.Type = Types.Float; break; case 'o': spec.Type = Types.Octal; break; case 's': spec.Type = Types.String; break; case 'u': spec.Type = Types.Unsigned; break; case 'x': case 'X': spec.Type = Types.Hexadecimal; break; case '[': spec.Type = Types.ScanSet; format.MoveAhead(); // Parse scan set characters if (format.Peek() == '^') { spec.ScanSetExclude = true; format.MoveAhead(); } else { spec.ScanSetExclude = false; } start = format.Position; // Treat immediate ']' as literal if (format.Peek() == ']') { format.MoveAhead(); } format.MoveTo(']'); if (format.EndOfText) { throw new Exception("Type specifier expected character : ']'"); } spec.ScanSet = format.Extract(start, format.Position); break; default: string msg = String.Format("Unknown format type specified : '{0}'", format.Peek()); throw new Exception(msg); } format.MoveAhead(); return(true); }