public static bool TryParseDecimal(ReadOnlySpan <byte> text, out decimal value, out int bytesConsumed, SymbolTable symbolTable = null) { symbolTable = symbolTable ?? SymbolTable.InvariantUtf8; bytesConsumed = 0; value = default; if (symbolTable == SymbolTable.InvariantUtf8) { return(Utf8Parser.TryParse(text, out value, out bytesConsumed)); } else if (symbolTable == SymbolTable.InvariantUtf16) { ReadOnlySpan <char> textChars = MemoryMarshal.Cast <byte, char>(text); bool result = Utf16Parser.TryParseDecimal(textChars, out value, out int charactersConsumed); bytesConsumed = charactersConsumed * sizeof(char); return(result); } return(false); }
public bool TryParse(out ulong value) { var unread = Unread; if (Utf8Parser.TryParse(unread, out value, out int consumed)) { if (unread.Length > consumed) { _currentSpanIndex += consumed; return(true); } } Span <byte> tempSpan = stackalloc byte[30]; var copied = CopyTo(this, tempSpan); if (Utf8Parser.TryParse(tempSpan.Slice(0, copied), out value, out consumed)) { Advance(consumed); return(true); } return(false); }
public static bool TryParseInt64(ReadOnlySpan <byte> text, out long value, out int bytesConsumed, StandardFormat format = default, SymbolTable symbolTable = null) { symbolTable = symbolTable ?? SymbolTable.InvariantUtf8; if (!format.IsDefault && format.HasPrecision) { throw new NotImplementedException("Format with precision not supported."); } if (symbolTable == SymbolTable.InvariantUtf8) { if (Parsers.IsHexFormat(format)) { return(Utf8Parser.TryParse(text, out value, out bytesConsumed, 'X')); } else { return(Utf8Parser.TryParse(text, out value, out bytesConsumed)); } } else if (symbolTable == SymbolTable.InvariantUtf16) { ReadOnlySpan <char> utf16Text = MemoryMarshal.Cast <byte, char>(text); int charactersConsumed; bool result; if (Parsers.IsHexFormat(format)) { result = Utf16Parser.Hex.TryParseInt64(utf16Text, out value, out charactersConsumed); } else { result = Utf16Parser.TryParseInt64(utf16Text, out value, out charactersConsumed); } bytesConsumed = charactersConsumed * sizeof(char); return(result); } if (Parsers.IsHexFormat(format)) { throw new NotImplementedException("The only supported encodings for hexadecimal parsing are InvariantUtf8 and InvariantUtf16."); } if (!(format.IsDefault || format.Symbol == 'G' || format.Symbol == 'g')) { throw new NotImplementedException(String.Format("Format '{0}' not supported.", format.Symbol)); } if (!symbolTable.TryParse(text, out SymbolTable.Symbol nextSymbol, out int thisSymbolConsumed)) { value = default; bytesConsumed = 0; return(false); } int sign = 1; if (nextSymbol == SymbolTable.Symbol.MinusSign) { sign = -1; } int signConsumed = 0; if (nextSymbol == SymbolTable.Symbol.PlusSign || nextSymbol == SymbolTable.Symbol.MinusSign) { signConsumed = thisSymbolConsumed; if (!symbolTable.TryParse(text.Slice(signConsumed), out nextSymbol, out thisSymbolConsumed)) { value = default; bytesConsumed = 0; return(false); } } if (nextSymbol > SymbolTable.Symbol.D9) { value = default; bytesConsumed = 0; return(false); } long parsedValue = (long)nextSymbol; int index = signConsumed + thisSymbolConsumed; while (index < text.Length) { bool success = symbolTable.TryParse(text.Slice(index), out nextSymbol, out thisSymbolConsumed); if (!success || nextSymbol > SymbolTable.Symbol.D9) { bytesConsumed = index; value = (long)(parsedValue * sign); return(true); } // If parsedValue > (long.MaxValue / 10), any more appended digits will cause overflow. // if parsedValue == (long.MaxValue / 10), any nextDigit greater than 7 or 8 (depending on sign) implies overflow. bool positive = sign > 0; bool nextDigitTooLarge = nextSymbol > SymbolTable.Symbol.D8 || (positive && nextSymbol > SymbolTable.Symbol.D7); if (parsedValue > long.MaxValue / 10 || (parsedValue == long.MaxValue / 10 && nextDigitTooLarge)) { bytesConsumed = 0; value = default; return(false); } index += thisSymbolConsumed; parsedValue = parsedValue * 10 + (long)nextSymbol; } bytesConsumed = text.Length; value = (long)(parsedValue * sign); return(true); }
public static bool TryParseInt32(ReadOnlySpan <byte> text, out int value, out int bytesConsumed, StandardFormat format = default, SymbolTable symbolTable = null) { bool isDefault = format.IsDefault; symbolTable = symbolTable ?? SymbolTable.InvariantUtf8; if (!isDefault && format.HasPrecision) { throw new NotImplementedException("Format with precision not supported."); } bool isHex = Parsers.IsHexFormat(format); if (symbolTable == SymbolTable.InvariantUtf8) { return(isHex ? Utf8Parser.TryParse(text, out value, out bytesConsumed, 'X') : Utf8Parser.TryParse(text, out value, out bytesConsumed)); } else if (symbolTable == SymbolTable.InvariantUtf16) { /*return isHex ? InvariantUtf16.Hex.TryParseInt32(text, out value, out bytesConsumed) : * InvariantUtf16.TryParseInt32(text, out value, out bytesConsumed);*/ ReadOnlySpan <char> utf16Text = MemoryMarshal.Cast <byte, char>(text); bool result = isHex ? Utf16Parser.Hex.TryParseInt32(utf16Text, out value, out int charactersConsumed) : Utf16Parser.TryParseInt32(utf16Text, out value, out charactersConsumed); bytesConsumed = charactersConsumed * sizeof(char); return(result); } if (isHex) { throw new NotImplementedException("The only supported encodings for hexadecimal parsing are InvariantUtf8 and InvariantUtf16."); } if (!(isDefault || format.Symbol == 'G' || format.Symbol == 'g')) { throw new NotImplementedException(String.Format("Format '{0}' not supported.", format.Symbol)); } int textLength = text.Length; if (textLength < 1) { goto FalseExit; } if (!symbolTable.TryParse(text, out SymbolTable.Symbol symbol, out int consumed)) { goto FalseExit; } sbyte sign = 1; int index = 0; if (symbol == SymbolTable.Symbol.MinusSign) { sign = -1; index += consumed; if (index >= textLength) { goto FalseExit; } if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto FalseExit; } } else if (symbol == SymbolTable.Symbol.PlusSign) { index += consumed; if (index >= textLength) { goto FalseExit; } if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto FalseExit; } } int answer = 0; if (Parsers.IsValid(symbol)) { int numBytes = consumed; if (symbol == SymbolTable.Symbol.D0) { do { index += consumed; if (index >= textLength) { goto Done; } if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto Done; } } while (symbol == SymbolTable.Symbol.D0); if (!Parsers.IsValid(symbol)) { goto Done; } } int firstNonZeroDigitIndex = index; if (textLength - firstNonZeroDigitIndex < Parsers.Int32OverflowLength * numBytes) { do { answer = answer * 10 + (int)symbol; index += consumed; if (index >= textLength) { goto Done; } if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto Done; } } while (Parsers.IsValid(symbol)); } else { do { answer = answer * 10 + (int)symbol; index += consumed; if (index - firstNonZeroDigitIndex == (Parsers.Int32OverflowLength - 1) * numBytes) { if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto Done; } if (Parsers.IsValid(symbol)) { if (Parsers.WillOverFlow(answer, (int)symbol, sign)) { goto FalseExit; } answer = answer * 10 + (int)symbol; index += consumed; } goto Done; } if (!symbolTable.TryParse(text.Slice(index), out symbol, out consumed)) { goto Done; } } while (Parsers.IsValid(symbol)); } goto Done; } FalseExit: bytesConsumed = 0; value = 0; return(false); Done: bytesConsumed = index; value = answer * sign; return(true); }