NumberFormatInfo.InvariantInfo NumberFormatInfo.InvariantInfo NumberFormatInfo.InvariantInfo NumberFormatInfo.InvariantInfo Property

Definition

Ruft ein schreibgeschütztes NumberFormatInfo-Objekt ab, das kulturunabhängig (invariant) ist.Gets a read-only NumberFormatInfo object that is culture-independent (invariant).

public:
 static property System::Globalization::NumberFormatInfo ^ InvariantInfo { System::Globalization::NumberFormatInfo ^ get(); };
public static System.Globalization.NumberFormatInfo InvariantInfo { get; }
member this.InvariantInfo : System.Globalization.NumberFormatInfo
Public Shared ReadOnly Property InvariantInfo As NumberFormatInfo

Eigenschaftswert

Ein schreibgeschütztes Objekt, das kulturunabhängig (invariant) ist.A read-only object that is culture-independent (invariant).

Beispiele

Das folgende Beispiel zeigt die Standardeigenschaftswerte der InvariantInfo.The following example displays the default property values of the InvariantInfo.

using namespace System;
using namespace System::Globalization;
using namespace System::Text;
int main()
{
   
   // Gets the InvariantInfo.
   NumberFormatInfo^ myInv = NumberFormatInfo::InvariantInfo;
   
   // Gets a UnicodeEncoding to display the Unicode value of symbols.
   UnicodeEncoding^ myUE = gcnew UnicodeEncoding( true,false );
   array<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 );
}

/*

This code produces the following output.

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                    +

*/
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 );

   }
}


/*

This code produces the following output.

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                    +

*/

Imports System
Imports System.Globalization
Imports System.Text
Imports Microsoft.VisualBasic


Class SamplesNumberFormatInfo
   
   
   Public Shared Sub Main()
      
      ' Gets the InvariantInfo.
      Dim myInv As NumberFormatInfo = NumberFormatInfo.InvariantInfo
      
      ' Gets a UnicodeEncoding to display the Unicode value of symbols.
      Dim myUE As New UnicodeEncoding(True, False)
      Dim myCodes() As Byte
      
      ' Displays the default values for each of the properties.
      Console.WriteLine("InvariantInfo:")
      Console.WriteLine("Note: Symbols might not display correctly on the console,")
      Console.WriteLine("therefore, Unicode values are included.")
      Console.WriteLine(ControlChars.Tab + "CurrencyDecimalDigits" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.CurrencyDecimalDigits)
      Console.WriteLine(ControlChars.Tab + "CurrencyDecimalSeparator" + ControlChars.Tab + "{0}", myInv.CurrencyDecimalSeparator)
      Console.WriteLine(ControlChars.Tab + "CurrencyGroupSeparator" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.CurrencyGroupSeparator)
      Console.WriteLine(ControlChars.Tab + "CurrencyGroupSizes" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.CurrencyGroupSizes(0))
      Console.WriteLine(ControlChars.Tab + "CurrencyNegativePattern" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.CurrencyNegativePattern)
      Console.WriteLine(ControlChars.Tab + "CurrencyPositivePattern" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.CurrencyPositivePattern)
      myCodes = myUE.GetBytes(myInv.CurrencySymbol)
      Console.WriteLine(ControlChars.Tab + "CurrencySymbol" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}" + ControlChars.Tab + "(U+{1:x2}{2:x2})", myInv.CurrencySymbol, myCodes(0), myCodes(1))
      Console.WriteLine(ControlChars.Tab + "NaNSymbol" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NaNSymbol)
      Console.WriteLine(ControlChars.Tab + "NegativeInfinitySymbol" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NegativeInfinitySymbol)
      Console.WriteLine(ControlChars.Tab + "NegativeSign" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NegativeSign)
      Console.WriteLine(ControlChars.Tab + "NumberDecimalDigits" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NumberDecimalDigits)
      Console.WriteLine(ControlChars.Tab + "NumberDecimalSeparator" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NumberDecimalSeparator)
      Console.WriteLine(ControlChars.Tab + "NumberGroupSeparator" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NumberGroupSeparator)
      Console.WriteLine(ControlChars.Tab + "NumberGroupSizes" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NumberGroupSizes(0))
      Console.WriteLine(ControlChars.Tab + "NumberNegativePattern" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.NumberNegativePattern)
      Console.WriteLine(ControlChars.Tab + "PercentDecimalDigits" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentDecimalDigits)
      Console.WriteLine(ControlChars.Tab + "PercentDecimalSeparator" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentDecimalSeparator)
      Console.WriteLine(ControlChars.Tab + "PercentGroupSeparator" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentGroupSeparator)
      Console.WriteLine(ControlChars.Tab + "PercentGroupSizes" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentGroupSizes(0))
      Console.WriteLine(ControlChars.Tab + "PercentNegativePattern" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentNegativePattern)
      Console.WriteLine(ControlChars.Tab + "PercentPositivePattern" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PercentPositivePattern)
      myCodes = myUE.GetBytes(myInv.PercentSymbol)
      Console.WriteLine(ControlChars.Tab + "PercentSymbol" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}" + ControlChars.Tab + "(U+{1:x2}{2:x2})", myInv.PercentSymbol, myCodes(0), myCodes(1))
      myCodes = myUE.GetBytes(myInv.PerMilleSymbol)
      Console.WriteLine(ControlChars.Tab + "PerMilleSymbol" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}" + ControlChars.Tab + "(U+{1:x2}{2:x2})", myInv.PerMilleSymbol, myCodes(0), myCodes(1))
      Console.WriteLine(ControlChars.Tab + "PositiveInfinitySymbol" + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PositiveInfinitySymbol)
      Console.WriteLine(ControlChars.Tab + "PositiveSign" + ControlChars.Tab + ControlChars.Tab + ControlChars.Tab + "{0}", myInv.PositiveSign)
   End Sub 'Main 
End Class 'SamplesNumberFormatInfo


' This code produces the following output.
'
' 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                    +

Hinweise

Dies NumberFormatInfo von dieser Eigenschaft zurückgegebenen Objekts ändert sich nicht, unabhängig von der aktuellen Kultur.This NumberFormatInfo object returned by this property does not change, regardless of the current culture. Es stellt die Formatierungskonventionen der invarianten Kultur, die eine Kultur verknüpft ist, mit der englischen Sprache jedoch nicht mit der alle Länder/Regionen dar.It represents the formatting conventions of the invariant culture, which is a culture associated with the English language but not with any country/region. Die invariante Kultur wird verwendet, bei der Formatierung der Vorgänge, die kulturunabhängig sind oder der Ergebniszeichenfolgen für die Anzeige geeignet für mehrere Kulturen erzeugt.The invariant culture is used in formatting operations that are culture-independent or that produce result strings suitable for display across multiple cultures.

Gilt für: