Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>.Rest Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>.Rest Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>.Rest Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>.Rest Property

Definition

Ruft die restlichen Komponenten des aktuellen Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>-Objekts ab.Gets the current Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> object's remaining components.

public:
 property TRest Rest { TRest get(); };
public TRest Rest { get; }
member this.Rest : 'Rest
Public ReadOnly Property Rest As TRest

Eigenschaftswert

TRest TRest TRest TRest

Der Wert der restlichen Komponenten des aktuellen Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>-Objekts.The value of the current Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> object's remaining components.

Beispiele

Im folgenden Beispiel wird ein 17-Tuple-Objekt erstellt, das auffüllungs Daten für die Stadt von Detroit, Michigan, von 1860 bis 2000 enthält.The following example creates a 17-tuple object that contains population data for the city of Detroit, Michigan, from 1860 to 2000. Die siebte Komponente des 17-Tupels ist die Population in 1900.The seventh component of the 17-tuple is the population in 1900. Im Beispiel wird die Rest -Eigenschaft verwendet, um die Werte der acht bis 14-Komponenten abzurufen, und Rest die- Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> Eigenschaft des-Objekts wird verwendet, um die Werte der restlichen Komponenten abzurufen.The example uses the Rest property to retrieve the values of the eighth through fourteenth components, and it uses the Rest property of the nested Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> object to retrieve the values of the remaining components.

using System;

class Example
{
    static void Main(string[] args)
    {
        Tuple<int, int, int> from1980 = Tuple.Create(1203339, 1027974, 951270);
        var from1910 = new Tuple<int, int, int, int, int, int, int, Tuple<int, int, int>> 
            (465766, 993078, 1568622, 1623452, 1849568, 1670144, 1511462, from1980);
        var population = new Tuple<string, int, int, int, int, int, int,
            Tuple<int, int, int, int, int, int, int, Tuple<int, int, int>>> 
            ("Detroit", 1860, 45619, 79577, 116340, 205876, 285704, from1910);

        Console.WriteLine("Population of {0}", population.Item1);
        Console.WriteLine();
        Console.WriteLine("{0,5}  {1,14}  {2,10}", "Year", "Population", "Change");

        int year = population.Item2;
        ShowPopulation(year, population.Item3);
        year += 10;
        ShowPopulationChange(year, population.Item4, population.Item3);
        year += 10;
        ShowPopulationChange(year, population.Item5, population.Item4);
        year += 10;
        ShowPopulationChange(year, population.Item6, population.Item5);
        year += 10;
        ShowPopulationChange(year, population.Item7, population.Item6);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item1, population.Item7);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item2, population.Rest.Item1);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item3, population.Rest.Item2);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item4, population.Rest.Item3);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item5, population.Rest.Item4);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item6, population.Rest.Item5);
        year += 10;
        ShowPopulationChange(year, population.Rest.Item7, population.Rest.Item6);
        year += 10;
        ShowPopulationChange(year, population.Rest.Rest.Item1, population.Rest.Item7);
        year += 10;
        ShowPopulationChange(year, population.Rest.Rest.Item2, population.Rest.Rest.Item1);
        year += 10;
        ShowPopulationChange(year, population.Rest.Rest.Item3, population.Rest.Rest.Item2);
    }

    private static void ShowPopulationChange(int year, int newPopulation, int oldPopulation)
    {
        Console.WriteLine("{0,5}  {1,14:N0}  {2,10:P2}", year, newPopulation,
                          ((double)(newPopulation - oldPopulation) / oldPopulation) / 10);
    }

    private static void ShowPopulation(int year, int newPopulation)
    {
        Console.WriteLine("{0,5}  {1,14:N0}  {2,10:P2}", year, newPopulation, "n/a");
    }
}
// The example displays the following output:
//
//    Population of Detroit
//    Year      Population      Change
//    1860          45,619         n/a
//    1870          79,577      7.44 %
//    1880         116,340      4.62 %
//    1890         205,876      7.70 %
//    1900         285,704      3.88 %
//    1910         465,766      6.30 %
//    1920         993,078     11.32 %
//    1930       1,568,622      5.80 %
//    1940       1,623,452      0.35 %
//    1950       1,849,568      1.39 %
//    1960       1,670,144     -0.97 %
//    1970       1,511,462     -0.95 %
//    1980       1,203,339     -2.04 %
//    1990       1,027,974     -1.46 %
//    2000         951,270     -0.75 %
Module Example
    Sub Main()
        Dim from1980 As Tuple(Of Integer, Integer, Integer) =
            Tuple.Create(1203339, 1027974, 951270)
        Dim from1910 As New Tuple(Of Integer, Integer, Integer, Integer, Integer, Integer, Integer, _
            Tuple(Of Integer, Integer, Integer)) _
            (465766, 993078, 1568622, 1623452, 1849568, 1670144, 1511462, from1980)
        Dim population As New Tuple(Of String, Integer, Integer, Integer, Integer, Integer, Integer, _ 
            Tuple(Of Integer, Integer, Integer, Integer, Integer, Integer, Integer, Tuple(Of Integer, Integer, Integer))) _
            ("Detroit", 1860, 45619, 79577, 116340, 205876, 285704, from1910)

        Console.WriteLine("Population of {0}", population.Item1)
        Console.WriteLine()
        Console.WriteLine("{0,5}  {1,14}  {2,10}", "Year", "Population", "Change")

        Dim year As Integer = population.Item2
        ShowPopulation(year, population.Item3)
        year += 10
        ShowPopulationChange(year, population.Item4, population.Item3)
        year += 10
        ShowPopulationChange(year, population.Item5, population.Item4)
        year += 10
        ShowPopulationChange(year, population.Item6, population.Item5)
        year += 10
        ShowPopulationChange(year, population.Item7, population.Item6)
        year += 10
        ShowPopulationChange(year, population.Rest.Item1, population.Item7)
        year += 10
        ShowPopulationChange(year, population.Rest.Item2, population.Rest.Item1)
        year += 10
        ShowPopulationChange(year, population.Rest.Item3, population.Rest.Item2)
        year += 10
        ShowPopulationChange(year, population.Rest.Item4, population.Rest.Item3)
        year += 10
        ShowPopulationChange(year, population.Rest.Item5, population.Rest.Item4)
        year += 10
        ShowPopulationChange(year, population.Rest.Item6, population.Rest.Item5)
        year += 10
        ShowPopulationChange(year, population.Rest.Item7, population.Rest.Item6)
        year += 10
        ShowPopulationChange(year, population.Rest.Rest.Item1, population.Rest.Item7)
        year += 10
        ShowPopulationChange(year, population.Rest.Rest.Item2, population.Rest.Rest.Item1)
        year += 10
        ShowPopulationChange(year, population.Rest.Rest.Item3, population.Rest.Rest.Item2)
    End Sub

    Private Sub ShowPopulationChange(ByVal year As Integer, ByVal newPopulation As Integer, ByVal oldPopulation As Integer)
        Console.WriteLine("{0,5}  {1,14:N0}  {2,10:P2}", year, newPopulation,
                          (newPopulation - oldPopulation) / oldPopulation / 10)
    End Sub

    Private Sub ShowPopulation(ByVal year As Integer, ByVal newPopulation As Integer)
        Console.WriteLine("{0,5}  {1,14:N0}  {2,10:P2}", year, newPopulation, "n/a")
    End Sub
End Module
' The example displays the following output:
'
'    Population of Detroit
'    Year      Population      Change
'    1860          45,619         n/a
'    1870          79,577      7.44 %
'    1880         116,340      4.62 %
'    1890         205,876      7.70 %
'    1900         285,704      3.88 %
'    1910         465,766      6.30 %
'    1920         993,078     11.32 %
'    1930       1,568,622      5.80 %
'    1940       1,623,452      0.35 %
'    1950       1,849,568      1.39 %
'    1960       1,670,144     -0.97 %
'    1970       1,511,462     -0.95 %
'    1980       1,203,339     -2.04 %
'    1990       1,027,974     -1.46 %
'    2000         951,270     -0.75 %

Hinweise

Die Rest -Eigenschaft gibt ein Tuple -Objekt zurück, das den Zugriff auf die achten, aber n-ten Komponenten des Tupels ermöglicht.The Rest property returns a nested Tuple object that allows access to the eighth though nth components of the tuple. Abhängig von der Gesamtanzahl der Komponenten im Tupel können die Werte der acht bis 14 vier Komponenten aus den über-Eigenschaften des durch das Tuple -Objekt Item1 durch Item7 das-Objekt abgerufen werden.Depending on the total number of components in the tuple, the values of the eighth through fourteenth components can be retrieved from the nested Tuple object's Item1 through Item7 properties. Anschließend können Sie die- Rest Eigenschaft eines Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> geschachtelten-Objekts verwenden, Tuple um das Objekt auf der nächsten Schachtelungs Ebene abzurufen.You can then use the Rest property of a nested Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> object to retrieve the Tuple object at the next level of nesting.

Sie können die Anzahl der Komponenten in einem Tuple von der Rest -Eigenschaft zurückgegebenen Objekt dynamisch ermitteln, indem Sie die Ziffer aus dem Typnamen extrahieren.You can dynamically determine the number of components in a nested Tuple object that is returned by the Rest property by extracting the digit from its type name. Dies wird im folgenden Beispiel veranschaulicht.The following example provides an illustration.

Imports System.Reflection

Module Example
    Sub Main()
        Dim from1980 As Tuple(Of Integer, Integer, Integer) =
            Tuple.Create(1203339, 1027974, 951270)
        Dim from1910 As New Tuple(Of Integer, Integer, Integer, Integer, Integer, Integer, Integer, _
            Tuple(Of Integer, Integer, Integer)) _
            (465766, 993078, 1568622, 1623452, 1849568, 1670144, 1511462, from1980)
        Dim population As New Tuple(Of String, Integer, Integer, Integer, Integer, Integer, Integer, _ 
            Tuple(Of Integer, Integer, Integer, Integer, Integer, Integer, Integer, Tuple(Of Integer, Integer, Integer))) _
            ("Detroit", 1860, 45619, 79577, 116340, 205876, 285704, from1910)
      
        ShowComponentCount(population)
   End Sub
   
   Private Sub ShowComponentCount(tuple As Object) 
      Static ctr As Integer = 0
      Static totalComponents As Integer = 0
      Dim components As Integer = 0
      
      ctr += 1
      Dim name As String = tuple.GetType().Name
      components += Int32.Parse(name.Substring(name.IndexOf("`") + 1))
      If components = 8 Then
         totalComponents += 7
         Console.WriteLine("The tuple at level {0} has 7 components.", ctr)
         ShowComponentCount(tuple.Rest)
      Else
         totalComponents += components
         Console.WriteLine("The tuple at level {0} has {1} components.", 
                           ctr, components)
         Console.WriteLine("Total components in tuple: {0}", totalComponents)
      End If      
   End Sub        
End Module
' The example displays the following output:
'       The tuple at level 1 has 7 components.
'       The tuple at level 2 has 7 components.
'       The tuple at level 3 has 3 components.
'       Total components in tuple: 17

Gilt für: