本文整理汇总了C#中System.Globalization.NumberFormatInfo.InvariantInfo属性的典型用法代码示例。如果您正苦于以下问题:C# NumberFormatInfo.InvariantInfo属性的具体用法?C# NumberFormatInfo.InvariantInfo怎么用?C# NumberFormatInfo.InvariantInfo使用的例子?那么恭喜您, 这里精选的属性代码示例或许可以为您提供帮助。您也可以进一步了解该属性所在类System.Globalization.NumberFormatInfo的用法示例。
在下文中一共展示了NumberFormatInfo.InvariantInfo属性的1个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C#代码示例。
示例1: Main
//引入命名空间
using System;
using System.Globalization;
using System.Text;
class SamplesNumberFormatInfo {
public static void Main() {
// Gets the InvariantInfo.
NumberFormatInfo myInv = NumberFormatInfo.InvariantInfo;
// Gets a UnicodeEncoding to display the Unicode value of symbols.
UnicodeEncoding myUE = new UnicodeEncoding( true, false );
byte[] myCodes;
// Displays the default values for each of the properties.
Console.WriteLine( "InvariantInfo:\nNote: Symbols might not display correctly on the console,\ntherefore, Unicode values are included." );
Console.WriteLine( "\tCurrencyDecimalDigits\t\t{0}", myInv.CurrencyDecimalDigits );
Console.WriteLine( "\tCurrencyDecimalSeparator\t{0}", myInv.CurrencyDecimalSeparator );
Console.WriteLine( "\tCurrencyGroupSeparator\t\t{0}", myInv.CurrencyGroupSeparator );
Console.WriteLine( "\tCurrencyGroupSizes\t\t{0}", myInv.CurrencyGroupSizes[0] );
Console.WriteLine( "\tCurrencyNegativePattern\t\t{0}", myInv.CurrencyNegativePattern );
Console.WriteLine( "\tCurrencyPositivePattern\t\t{0}", myInv.CurrencyPositivePattern );
myCodes = myUE.GetBytes( myInv.CurrencySymbol );
Console.WriteLine( "\tCurrencySymbol\t\t\t{0}\t(U+{1:x2}{2:x2})", myInv.CurrencySymbol, myCodes[0], myCodes[1] );
Console.WriteLine( "\tNaNSymbol\t\t\t{0}", myInv.NaNSymbol );
Console.WriteLine( "\tNegativeInfinitySymbol\t\t{0}", myInv.NegativeInfinitySymbol );
Console.WriteLine( "\tNegativeSign\t\t\t{0}", myInv.NegativeSign );
Console.WriteLine( "\tNumberDecimalDigits\t\t{0}", myInv.NumberDecimalDigits );
Console.WriteLine( "\tNumberDecimalSeparator\t\t{0}", myInv.NumberDecimalSeparator );
Console.WriteLine( "\tNumberGroupSeparator\t\t{0}", myInv.NumberGroupSeparator );
Console.WriteLine( "\tNumberGroupSizes\t\t{0}", myInv.NumberGroupSizes[0] );
Console.WriteLine( "\tNumberNegativePattern\t\t{0}", myInv.NumberNegativePattern );
Console.WriteLine( "\tPercentDecimalDigits\t\t{0}", myInv.PercentDecimalDigits );
Console.WriteLine( "\tPercentDecimalSeparator\t\t{0}", myInv.PercentDecimalSeparator );
Console.WriteLine( "\tPercentGroupSeparator\t\t{0}", myInv.PercentGroupSeparator );
Console.WriteLine( "\tPercentGroupSizes\t\t{0}", myInv.PercentGroupSizes[0] );
Console.WriteLine( "\tPercentNegativePattern\t\t{0}", myInv.PercentNegativePattern );
Console.WriteLine( "\tPercentPositivePattern\t\t{0}", myInv.PercentPositivePattern );
myCodes = myUE.GetBytes( myInv.PercentSymbol );
Console.WriteLine( "\tPercentSymbol\t\t\t{0}\t(U+{1:x2}{2:x2})", myInv.PercentSymbol, myCodes[0], myCodes[1] );
myCodes = myUE.GetBytes( myInv.PerMilleSymbol );
Console.WriteLine( "\tPerMilleSymbol\t\t\t{0}\t(U+{1:x2}{2:x2})", myInv.PerMilleSymbol, myCodes[0], myCodes[1] );
Console.WriteLine( "\tPositiveInfinitySymbol\t\t{0}", myInv.PositiveInfinitySymbol );
Console.WriteLine( "\tPositiveSign\t\t\t{0}", myInv.PositiveSign );
}
}输出:
InvariantInfo:
Note: Symbols might not display correctly on the console,
therefore, Unicode values are included.
CurrencyDecimalDigits 2
CurrencyDecimalSeparator .
CurrencyGroupSeparator ,
CurrencyGroupSizes 3
CurrencyNegativePattern 0
CurrencyPositivePattern 0
CurrencySymbol (U+00a4)
NaNSymbol NaN
NegativeInfinitySymbol -Infinity
NegativeSign -
NumberDecimalDigits 2
NumberDecimalSeparator .
NumberGroupSeparator ,
NumberGroupSizes 3
NumberNegativePattern 1
PercentDecimalDigits 2
PercentDecimalSeparator .
PercentGroupSeparator ,
PercentGroupSizes 3
PercentNegativePattern 0
PercentPositivePattern 0
PercentSymbol % (U+0025)
PerMilleSymbol % (U+2030)
PositiveInfinitySymbol Infinity
PositiveSign +