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//
// System.UInt32.cs
//
// Author:
// Miguel de Icaza (miguel@ximian.com)
//
// (C) Ximian, Inc. http://www.ximian.com
//
using System.Globalization;
using System.Threading;
namespace System {
[CLSCompliant(false)]
[Serializable]
public struct UInt32 : IComparable, IFormattable, IConvertible {
public const uint MaxValue = 0xffffffff;
public const uint MinValue = 0;
public uint value;
public int CompareTo (object v)
{
if (v == null)
return 1;
if (!(v is System.UInt32))
throw new ArgumentException (Locale.GetText ("Value is not a System.UInt32"));
if (value == (uint) v)
return 0;
if (value < (uint) v)
return -1;
return 1;
}
public override bool Equals (object o)
{
if (!(o is System.UInt32))
return false;
return ((uint) o) == value;
}
public override int GetHashCode ()
{
return (int) value;
}
[CLSCompliant(false)]
public static uint Parse (string s)
{
uint val = 0;
int len;
int i;
bool digits_seen = false;
bool has_negative_sign = false;
if (s == null)
throw new ArgumentNullException (Locale.GetText ("s is null"));
len = s.Length;
char c;
for (i = 0; i < len; i++){
c = s [i];
if (!Char.IsWhiteSpace (c))
break;
}
if (i == len)
throw new FormatException ();
if (s [i] == '+')
i++;
else
if (s[i] == '-'){
i++;
has_negative_sign = true;
}
for (; i < len; i++){
c = s [i];
if (c >= '0' && c <= '9'){
uint d = (uint) (c - '0');
val = checked (val * 10 + d);
digits_seen = true;
} else {
if (Char.IsWhiteSpace (c)){
for (i++; i < len; i++){
if (!Char.IsWhiteSpace (s [i]))
throw new FormatException ();
}
break;
} else
throw new FormatException ();
}
}
if (!digits_seen)
throw new FormatException ();
if (has_negative_sign)
throw new OverflowException ();
return val;
}
[CLSCompliant(false)]
public static uint Parse (string s, IFormatProvider fp)
{
return Parse (s, NumberStyles.Integer, fp);
}
[CLSCompliant(false)]
public static uint Parse (string s, NumberStyles style)
{
return Parse (s, style, null);
}
[CLSCompliant(false)]
public static uint Parse (string s, NumberStyles style, IFormatProvider fp)
{
if (s == null)
throw new ArgumentNullException ();
if (s.Length == 0)
throw new FormatException ("Input string was not in the correct format.");
NumberFormatInfo nfi;
if (fp != null) {
Type typeNFI = typeof (System.Globalization.NumberFormatInfo);
nfi = (NumberFormatInfo) fp.GetFormat (typeNFI);
}
else
nfi = Thread.CurrentThread.CurrentCulture.NumberFormat;
Int32.CheckStyle (style);
bool AllowCurrencySymbol = (style & NumberStyles.AllowCurrencySymbol) != 0;
bool AllowExponent = (style & NumberStyles.AllowExponent) != 0;
bool AllowHexSpecifier = (style & NumberStyles.AllowHexSpecifier) != 0;
bool AllowThousands = (style & NumberStyles.AllowThousands) != 0;
bool AllowDecimalPoint = (style & NumberStyles.AllowDecimalPoint) != 0;
bool AllowParentheses = (style & NumberStyles.AllowParentheses) != 0;
bool AllowTrailingSign = (style & NumberStyles.AllowTrailingSign) != 0;
bool AllowLeadingSign = (style & NumberStyles.AllowLeadingSign) != 0;
bool AllowTrailingWhite = (style & NumberStyles.AllowTrailingWhite) != 0;
bool AllowLeadingWhite = (style & NumberStyles.AllowLeadingWhite) != 0;
int pos = 0;
if (AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
bool foundOpenParentheses = false;
bool negative = false;
bool foundSign = false;
bool foundCurrency = false;
// Pre-number stuff
if (AllowParentheses && s [pos] == '(') {
foundOpenParentheses = true;
foundSign = true;
negative = true; // MS always make the number negative when there parentheses
// even when NumberFormatInfo.NumberNegativePattern != 0!!!
pos++;
if (AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
if (s.Substring (pos, nfi.NegativeSign.Length) == nfi.NegativeSign)
throw new FormatException ("Input string was not in the correct format.");
if (s.Substring (pos, nfi.PositiveSign.Length) == nfi.PositiveSign)
throw new FormatException ("Input string was not in the correct format.");
}
if (AllowLeadingSign && !foundSign) {
// Sign + Currency
Int32.FindSign (ref pos, s, nfi, ref foundSign, ref negative);
if (foundSign) {
if (AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
if (AllowCurrencySymbol) {
Int32.FindCurrency (ref pos, s, nfi,
ref foundCurrency);
if (foundCurrency && AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
}
}
}
if (AllowCurrencySymbol && !foundCurrency) {
// Currency + sign
Int32.FindCurrency (ref pos, s, nfi, ref foundCurrency);
if (foundCurrency) {
if (AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
if (foundCurrency) {
if (!foundSign && AllowLeadingSign) {
Int32.FindSign (ref pos, s, nfi, ref foundSign,
ref negative);
if (foundSign && AllowLeadingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
}
}
}
}
uint number = 0;
int nDigits = 0;
bool decimalPointFound = false;
uint digitValue;
char hexDigit;
// Number stuff
// Just the same as Int32, but this one adds instead of substract
do {
if (!Int32.ValidDigit (s [pos], AllowHexSpecifier)) {
if (AllowThousands &&
Int32.FindOther (ref pos, s, nfi.NumberGroupSeparator))
continue;
else
if (!decimalPointFound && AllowDecimalPoint &&
Int32.FindOther (ref pos, s, nfi.NumberDecimalSeparator)) {
decimalPointFound = true;
continue;
}
break;
}
else if (AllowHexSpecifier) {
nDigits++;
hexDigit = s [pos++];
if (Char.IsDigit (hexDigit))
digitValue = (uint) (hexDigit - '0');
else if (Char.IsLower (hexDigit))
digitValue = (uint) (hexDigit - 'a' + 10);
else
digitValue = (uint) (hexDigit - 'A' + 10);
number = checked (number * 16 + digitValue);
}
else if (decimalPointFound) {
nDigits++;
// Allows decimal point as long as it's only
// followed by zeroes.
if (s [pos++] != '0')
throw new OverflowException ("Value too large or too small.");
}
else {
nDigits++;
try {
number = checked (
number * 10 +
(uint) (s [pos++] - '0')
);
} catch (OverflowException) {
throw new OverflowException ("Value too large or too small.");
}
}
} while (pos < s.Length);
// Post number stuff
if (nDigits == 0)
throw new FormatException ("Input string was not in the correct format.");
if (AllowTrailingSign && !foundSign) {
// Sign + Currency
Int32.FindSign (ref pos, s, nfi, ref foundSign, ref negative);
if (foundSign) {
if (AllowTrailingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
if (AllowCurrencySymbol)
Int32. FindCurrency (ref pos, s, nfi,
ref foundCurrency);
}
}
if (AllowCurrencySymbol && !foundCurrency) {
// Currency + sign
Int32.FindCurrency (ref pos, s, nfi, ref foundCurrency);
if (foundCurrency) {
if (AllowTrailingWhite)
pos = Int32.JumpOverWhite (pos, s, true);
if (!foundSign && AllowTrailingSign)
Int32.FindSign (ref pos, s, nfi, ref foundSign,
ref negative);
}
}
if (AllowTrailingWhite && pos < s.Length)
pos = Int32.JumpOverWhite (pos, s, false);
if (foundOpenParentheses) {
if (pos >= s.Length || s [pos++] != ')')
throw new FormatException ("Input string was not in the correct " +
"format.");
if (AllowTrailingWhite && pos < s.Length)
pos = Int32.JumpOverWhite (pos, s, false);
}
if (pos < s.Length)
throw new FormatException ("Input string was not in the correct format.");
if (negative)
throw new OverflowException ( "Value too large or too small.");
return number;
}
public override string ToString ()
{
return ToString (null, null);
}
public string ToString (IFormatProvider fp)
{
return ToString (null, fp);
}
public string ToString (string format)
{
return ToString (format, null);
}
public string ToString (string format, IFormatProvider fp)
{
NumberFormatInfo nfi = NumberFormatInfo.GetInstance( fp );
if ( format == null )
format = "G";
return IntegerFormatter.NumberToString(format, nfi, value);
}
// =========== IConvertible Methods =========== //
public TypeCode GetTypeCode ()
{
return TypeCode.UInt32;
}
bool IConvertible.ToBoolean (IFormatProvider provider)
{
return System.Convert.ToBoolean (value);
}
byte IConvertible.ToByte (IFormatProvider provider)
{
return System.Convert.ToByte (value);
}
char IConvertible.ToChar (IFormatProvider provider)
{
return System.Convert.ToChar (value);
}
DateTime IConvertible.ToDateTime (IFormatProvider provider)
{
return System.Convert.ToDateTime (value);
}
decimal IConvertible.ToDecimal (IFormatProvider provider)
{
return System.Convert.ToDecimal (value);
}
double IConvertible.ToDouble (IFormatProvider provider)
{
return System.Convert.ToDouble (value);
}
short IConvertible.ToInt16 (IFormatProvider provider)
{
return System.Convert.ToInt16 (value);
}
int IConvertible.ToInt32 (IFormatProvider provider)
{
return System.Convert.ToInt32 (value);
}
long IConvertible.ToInt64 (IFormatProvider provider)
{
return System.Convert.ToInt64 (value);
}
[CLSCompliant (false)]
sbyte IConvertible.ToSByte (IFormatProvider provider)
{
return System.Convert.ToSByte (value);
}
float IConvertible.ToSingle (IFormatProvider provider)
{
return System.Convert.ToSingle (value);
}
object IConvertible.ToType (Type conversionType, IFormatProvider provider)
{
return System.Convert.ToType (value, conversionType, provider);
}
[CLSCompliant (false)]
ushort IConvertible.ToUInt16 (IFormatProvider provider)
{
return System.Convert.ToUInt16 (value);
}
[CLSCompliant (false)]
uint IConvertible.ToUInt32 (IFormatProvider provider)
{
return System.Convert.ToUInt32 (value);
}
[CLSCompliant (false)]
ulong IConvertible.ToUInt64 (IFormatProvider provider)
{
return System.Convert.ToUInt64 (value);
}
}
}
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