Tuple<T1,T2,T3,T4,T5,T6,T7,TRest>.IStructuralComparable.CompareTo Metod

 virtual int System.Collections.IStructuralComparable.CompareTo(System::Object ^ other, System::Collections::IComparer ^ comparer) = System::Collections::IStructuralComparable::CompareTo;

int IStructuralComparable.CompareTo(object other, System.Collections.IComparer comparer);

abstract member System.Collections.IStructuralComparable.CompareTo : obj * System.Collections.IComparer -> int
override this.System.Collections.IStructuralComparable.CompareTo : obj * System.Collections.IComparer -> int

Function CompareTo (other As Object, comparer As IComparer) As Integer Implements IStructuralComparable.CompareTo

Parametrar

Returer

Ett signerat heltal som anger den relativa positionen för den här instansen och other i sorteringsordningen, enligt följande tabell.

Implementeringar

Undantag

Exempel

I följande exempel skapas en matris med Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> objekt som innehåller befolkningsdata för fyra amerikanska städer från 1940 till 2000. Octuples första komponent är stadens namn. De återstående sex komponenterna representerar populationen med 10 års intervall från 1940 till 2000.

Klassen PopulationComparer tillhandahåller en IComparer implementering som gör att matrisen med oktupler kan sorteras efter någon av dess komponenter. Två värden tillhandahålls till PopulationComparer klassen i konstruktorn: Positionen för komponenten som definierar sorteringsordningen och ett Boolean värde som anger om tuppelns objekt ska sorteras i stigande eller fallande ordning.

Exemplet visar sedan elementen i matrisen i osorterad ordning, sorterar dem efter den tredje komponenten (populationen 1950) och visar dem och sorterar dem sedan efter den åttonde komponenten (populationen år 2000) och visar dem.

using System;
using System.Collections;
using System.Collections.Generic;

public class PopulationComparer<T1, T2, T3, T4, T5, T6, T7, T8> : IComparer
{
   private int itemPosition;
   private int multiplier = -1;

   public PopulationComparer(int component) : this(component, true)
   { }

   public PopulationComparer(int component, bool descending)
   {
      if (!descending) multiplier = 1;

      if (component <= 0 || component > 8)
         throw new ArgumentException("The component argument is out of range.");

      itemPosition = component;
   }

   public int Compare(object x, object y)
   {
      Tuple<T1, T2, T3, T4, T5, T6, T7, Tuple<T8>> tX = x as Tuple<T1, T2, T3, T4, T5, T6, T7, Tuple<T8>>;
      if (tX == null)
         return 0;

      Tuple<T1, T2, T3, T4, T5, T6, T7, Tuple<T8>> tY = y as Tuple<T1, T2, T3, T4, T5, T6, T7, Tuple<T8>>;
      switch (itemPosition)
      {
         case 1:
            return Comparer<T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier;
         case 2:
            return Comparer<T2>.Default.Compare(tX.Item2, tY.Item2) * multiplier;
         case 3:
            return Comparer<T3>.Default.Compare(tX.Item3, tY.Item3) * multiplier;
         case 4:
            return Comparer<T4>.Default.Compare(tX.Item4, tY.Item4) * multiplier;
         case 5:
            return Comparer<T5>.Default.Compare(tX.Item5, tY.Item5) * multiplier;
         case 6:
            return Comparer<T6>.Default.Compare(tX.Item6, tY.Item6) * multiplier;
         case 7:
            return Comparer<T7>.Default.Compare(tX.Item7, tY.Item7) * multiplier;
         case 8:
            return Comparer<T8>.Default.Compare(tX.Rest.Item1, tY.Rest.Item1) * multiplier;
         default:
            return Comparer<T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier;
      }
   }
}

public class Example
{
   public static void Main()
   {
      // Create array of octuples with population data for three U.S. 
      // cities, 1940-2000.
      Tuple<string, int, int, int, int, int, int, Tuple<int>>[] cities  = 
          { Tuple.Create("Los Angeles", 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820),
            Tuple.Create("New York", 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278),  
            Tuple.Create("Chicago", 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016),  
            Tuple.Create("Detroit", 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270) };
      // Display array in unsorted order.
      Console.WriteLine("In unsorted order:");
      foreach (var city in cities)
         Console.WriteLine(city.ToString());
      Console.WriteLine();
      
      Array.Sort(cities, new PopulationComparer<string, int, int, int, int, int, int, int>(2)); 
                           
      // Display array in sorted order.
      Console.WriteLine("Sorted by population in 1950:");
      foreach (var city in cities)
         Console.WriteLine(city.ToString());
      Console.WriteLine();
      
      Array.Sort(cities, new PopulationComparer<string, int, int, int, int, int, int, int>(8));
                           
      // Display array in sorted order.
      Console.WriteLine("Sorted by population in 2000:");
      foreach (var city in cities)
         Console.WriteLine(city.ToString());
   }
}
// The example displays the following output:
//    In unsorted order:
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
//    
//    Sorted by population in 1950:
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    
//    Sorted by population in 2000:
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)

open System
open System.Collections
open System.Collections.Generic

type PopulationComparer<'T1, 'T2, 'T3, 'T4, 'T5, 'T6, 'T7, 'T8>(itemPosition, descending) =
    let multiplier = if descending then -1 else 1

    do 
        if itemPosition <= 0 || itemPosition > 8 then
            invalidArg "itemPosition" "The component argument is out of range."
    new(itemPosition) = PopulationComparer (itemPosition, true)

    interface IComparer with
        member _.Compare(x, y) =
            match x with
            | :? Tuple<'T1, 'T2, 'T3, 'T4, 'T5, 'T6, 'T7, Tuple<'T8>> as tX ->
                let tY = y :?> Tuple<'T1, 'T2, 'T3, 'T4, 'T5, 'T6, 'T7, Tuple<'T8>>
                match itemPosition with
                | 1 ->
                    Comparer<'T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier
                | 2 ->
                    Comparer<'T2>.Default.Compare(tX.Item2, tY.Item2) * multiplier
                | 3 ->
                    Comparer<'T3>.Default.Compare(tX.Item3, tY.Item3) * multiplier
                | 4 ->
                    Comparer<'T4>.Default.Compare(tX.Item4, tY.Item4) * multiplier
                | 5 ->
                    Comparer<'T5>.Default.Compare(tX.Item5, tY.Item5) * multiplier
                | 6 ->
                    Comparer<'T6>.Default.Compare(tX.Item6, tY.Item6) * multiplier
                | 7 ->
                    Comparer<'T7>.Default.Compare(tX.Item7, tY.Item7) * multiplier
                | 8 ->
                    Comparer<'T8>.Default.Compare(tX.Rest.Item1, tY.Rest.Item1) * multiplier
                | _ ->
                    Comparer<'T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier
            | _ -> 0

// Create array of octuples with population data for three U.S. 
// cities, 1940-2000.
let cities  = 
    [| Tuple.Create("Los Angeles", 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
       Tuple.Create("Chicago", 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)  
       Tuple.Create("New York", 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)  
       Tuple.Create("Detroit", 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270) |]
// Display array in unsorted order.
printfn "In unsorted order:"
for city in cities do
    printfn $"{city}"
printfn ""

Array.Sort(cities, PopulationComparer<string, int, int, int, int, int, int, int> 2)

// Display array in sorted order.
printfn "Sorted by population in 1950:"
for city in cities do
    printfn $"{city}"
printfn ""

Array.Sort(cities, PopulationComparer<string, int, int, int, int, int, int, int>(8))
                    
// Display array in sorted order.
printfn "Sorted by population in 2000:"
for city in cities do
    printfn $"{city}"
// The example displays the following output:
//    In unsorted order:
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
//    
//    Sorted by population in 1950:
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    
//    Sorted by population in 2000:
//    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
//    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)

Imports System.Collections
Imports System.Collections.Generic

Public Class PopulationComparer(Of T1, T2, T3, T4, T5, T6, T7, T8) : Implements IComparer
   Private itemPosition As Integer
   Private multiplier As Integer = -1
      
   Public Sub New(component As Integer)
      Me.New(component, True)
   End Sub
   
   Public Sub New(component As Integer, descending As Boolean)
      If Not descending Then multiplier = 1
      
      If component <= 0 Or component > 8 Then 
         Throw New ArgumentException("The component argument is out of range.")
      End If
      itemPosition = component
   End Sub 
   
   Public Function Compare(x As Object, y As Object) As Integer _
                   Implements IComparer.Compare
 
      Dim tX As Tuple(Of T1, T2, T3, T4, T5, T6, T7, Tuple(Of T8)) = TryCast(x, Tuple(Of T1, T2, T3, T4, T5, T6, T7, Tuple(Of T8)))
      If tX Is Nothing Then
         Return 0
      Else
         Dim tY As Tuple(Of T1, T2, T3, T4, T5, T6, T7, Tuple(Of T8)) = DirectCast(y, Tuple(Of T1, T2, T3, T4, T5, T6, T7, Tuple(Of T8)))
         Select Case itemPosition
            Case 1
               Return Comparer(Of T1).Default.Compare(tX.Item1, tY.Item1) * multiplier
            Case 2
               Return Comparer(Of T2).Default.Compare(tX.Item2, tY.Item2) * multiplier
            Case 3
               Return Comparer(Of T3).Default.Compare(tX.Item3, tY.Item3) * multiplier
            Case 4
               Return Comparer(Of T4).Default.Compare(tX.Item4, tY.Item4) * multiplier
            Case 5
               Return Comparer(Of T5).Default.Compare(tX.Item5, tY.Item5) * multiplier
            Case 6
               Return Comparer(Of T6).Default.Compare(tX.Item6, tY.Item6) * multiplier
            Case 7
               Return Comparer(Of T7).Default.Compare(tX.Item7, tY.Item7) * multiplier
            Case 8
               Return Comparer(Of T8).Default.Compare(tX.Rest.Item1, tY.Rest.Item1) * multiplier
         End Select      
      End If
   End Function
End Class

Module Example
   Public Sub Main()
      ' Create array of octuples with population data for three U.S. 
      ' cities, 1940-2000.
      Dim cities()  = _
          { Tuple.Create("Los Angeles", 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820),
            Tuple.Create("New York", 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278),  
            Tuple.Create("Chicago", 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016),  
            Tuple.Create("Detroit", 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270) }
      ' Display array in unsorted order.
      Console.WriteLine("In unsorted order:")
      For Each city In cities
         Console.WriteLine(city.ToString())
      Next
      Console.WriteLine()
      
      Array.Sort(cities, New PopulationComparer(Of String, Integer, Integer, Integer, Integer, Integer, Integer, Integer)(2)) 
                           
      ' Display array in sorted order.
      Console.WriteLine("Sorted by population in 1950:")
      For Each city In cities
         Console.WriteLine(city.ToString())
      Next
      Console.WriteLine()
      
      Array.Sort(cities, New PopulationComparer(Of String, Integer, Integer, Integer, Integer, Integer, Integer, Integer)(8))
                           
      ' Display array in sorted order.
      Console.WriteLine("Sorted by population in 2000:")
      For Each city In cities
         Console.WriteLine(city.ToString())
      Next
   End Sub
End Module
' The example displays the following output:
'    In unsorted order:
'    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
'    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
'    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
'    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
'    
'    Sorted by population in 1950:
'    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
'    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
'    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)
'    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
'    
'    Sorted by population in 2000:
'    (New York, 7454995, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
'    (Los Angeles, 1504277, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
'    (Chicago, 3396808, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
'    (Detroit, 1623452, 1849568, 1670144, 1511462, 1203339, 1027974, 951270)

Kommentarer

Den här medlemmen är en explicit gränssnittsimplementering. Den kan endast användas när instansen Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> skickas till ett IStructuralComparable gränssnitt.

Med den här metoden kan du definiera anpassade jämförelser av Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> objekt. Du kan till exempel använda den här metoden för att beställa Tuple<T1,T2,T3,T4,T5,T6,T7,TRest> objekt baserat på värdet för en specifik komponent.

Även om den här metoden kan anropas direkt, kallas den oftast av insamlingssorteringsmetoder som innehåller IComparer parametrar för att beställa medlemmar i en samling. Den anropas till exempel av Array.Sort(Array, IComparer) metoden och Add metoden för ett SortedList objekt som instansieras med hjälp SortedList.SortedList(IComparer) av konstruktorn.