Tuple<T1,T2,T3,T4,T5,T6,T7>.IStructuralComparable.CompareTo 方法
定義
重要
部分資訊涉及發行前產品,在發行之前可能會有大幅修改。 Microsoft 對此處提供的資訊,不做任何明確或隱含的瑕疵擔保。
使用指定的比較子將目前的 Tuple<T1,T2,T3,T4,T5,T6,T7> 物件和指定的物件進行比較,並且傳回一個整數,表示目前的物件在排序順序中位於指定之物件的前面、後面還是相的位置。
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 -> intFunction CompareTo (other As Object, comparer As IComparer) As Integer Implements IStructuralComparable.CompareTo參數
- other
- Object
要與目前執行個體比較的物件。
- comparer
- IComparer
提供自訂規則進行比較的物件。
傳回
帶正負號的整數,可指出此執行個體以及排序次序中 other 的相對位置,如下表所示。
| 值 | 描述 |
|---|---|
| 負整數 | 這個執行個體位於 other 之前。
|
| 零 | 這個執行個體和 other 的排序位置相同。
|
| 正整數 | 這個執行個體位於 other 之後。
|
實作
例外狀況
other 不是 Tuple<T1,T2,T3,T4,T5,T6,T7> 物件。
範例
下列範例會建立 物件的陣列 Tuple<T1,T2,T3,T4,T5,T6,T7> ,其中包含 1950 到 2000 年三個美國城市的人口資料。 九月的第一個元件是城市名稱。 其餘五個元件以 10 年間隔代表從 1950 到 2000 的母體擴展。
類別 PopulationComparer 提供 實 IComparer 作,允許其任一元件排序九月陣列。 在建構函式中,類別會提供 PopulationComparer 兩個 Boolean 值:定義排序次序的元件位置,以及指出 Tuple 物件應該以遞增或遞減順序排序的值。
然後,此範例會以未排序的順序顯示陣列中的元素、依 1960) 母體 (母體的第三個元件進行排序,然後依 199) 0 年母體 (第六個元件加以排序,並加以顯示。
using System;
using System.Collections;
using System.Collections.Generic;
public class PopulationComparer<T1, T2, T3, T4, T5, T6, T7> : 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 > 7)
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> tX = x as Tuple<T1, T2, T3, T4, T5, T6, T7>;
if (tX == null)
{
return 0;
}
else
{
Tuple<T1, T2, T3, T4, T5, T6, T7> tY = y as Tuple<T1, T2, T3, T4, T5, T6, T7>;
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;
default:
return Comparer<T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier;
}
}
}
}
public class Example
{
public static void Main()
{
// Create array of sextuple with population data for three U.S.
// cities, 1960-2000.
Tuple<string, int, int, int, int, int, int>[] cities =
{ Tuple.Create("Los Angeles", 1970358, 2479015, 2816061, 2966850, 3485398, 3694820),
Tuple.Create("New York", 7891957, 7781984, 7894862, 7071639, 7322564, 8008278),
Tuple.Create("Chicago", 3620962, 3550904, 3366957, 3005072, 2783726, 2896016) };
// 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>(3));
// Display array in sorted order.
Console.WriteLine("Sorted by population in 1960:");
foreach (var city in cities)
Console.WriteLine(city.ToString());
Console.WriteLine();
Array.Sort(cities, new PopulationComparer<string, int, int, int, int, int, int>(6));
// Display array in sorted order.
Console.WriteLine("Sorted by population in 1990:");
foreach (var city in cities)
Console.WriteLine(city.ToString());
}
}
// The example displays the following output:
// In unsorted order:
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//
// Sorted by population in 1960:
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//
// Sorted by population in 1990:
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
open System
open System.Collections
open System.Collections.Generic
type PopulationComparer<'T1, 'T2, 'T3, 'T4, 'T5, 'T6, 'T7>(itemPosition, descending) =
let multiplier = if descending then -1 else 1
do
if itemPosition <= 0 || itemPosition > 7 then
invalidArg "itemPosition" "The itemPosition 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> as tX ->
let tY = y :?> Tuple<'T1, 'T2, 'T3, 'T4, 'T5, 'T6, 'T7>
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
| _ ->
Comparer<'T1>.Default.Compare(tX.Item1, tY.Item1) * multiplier
| _ -> 0
// Create array of sextuple with population data for three U.S.
// cities, 1960-2000.
let cities =
[| Tuple.Create("Los Angeles", 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
Tuple.Create("New York", 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
Tuple.Create("Chicago", 3620962, 3550904, 3366957, 3005072, 2783726, 2896016) |]
// 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> 3)
// Display array in sorted order.
printfn "Sorted by population in 1960:"
for city in cities do
printfn $"{city}"
printfn ""
Array.Sort(cities, PopulationComparer<string, int, int, int, int, int, int> 6)
// Display array in sorted order.
printfn "Sorted by population in 1990:"
for city in cities do
printfn $"{city}"
// The example displays the following output ->
// In unsorted order ->
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
//
// Sorted by population in 1960 ->
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
//
// Sorted by population in 1990 ->
// (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
// (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
// (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
Imports System.Collections
Imports System.Collections.Generic
Public Class PopulationComparer(Of T1, T2, T3, T4, T5, T6, T7) : 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 > 7 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) = TryCast(x, Tuple(Of T1, T2, T3, T4, T5, T6, T7))
If tX Is Nothing Then
Return 0
Else
Dim tY As Tuple(Of T1, T2, T3, T4, T5, T6, T7) = DirectCast(y, Tuple(Of T1, T2, T3, T4, T5, T6, T7))
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
' This should never be reached.
Case Else
Return 0
End Select
End If
End Function
End Class
Module Example
Public Sub Main()
' Create array of sextuple with population data for three U.S.
' cities, 1950-2000.
Dim cities() =
{ Tuple.Create("Los Angeles", 1970358, 2479015, 2816061, 2966850, 3485398, 3694820),
Tuple.Create("New York", 7891957, 7781984, 7894862, 7071639, 7322564, 8008278),
Tuple.Create("Chicago", 3620962, 3550904, 3366957, 3005072, 2783726, 2896016) }
' 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)(3))
' Display array in sorted order.
Console.WriteLine("Sorted by population in 1960:")
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)(6))
' Display array in sorted order.
Console.WriteLine("Sorted by population in 1990:")
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, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
' (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
' (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
'
' Sorted by population in 1960:
' (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
' (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
' (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
'
' Sorted by population in 1990:
' (New York, 7891957, 7781984, 7894862, 7071639, 7322564, 8008278)
' (Los Angeles, 1970358, 2479015, 2816061, 2966850, 3485398, 3694820)
' (Chicago, 3620962, 3550904, 3366957, 3005072, 2783726, 2896016)
備註
這個成員是明確介面實作。 只有在 Tuple<T1,T2,T3,T4,T5,T6,T7> 執行個體轉換成 IStructuralComparable 介面時,才能使用這個成員。
這個方法可讓您定義物件的自訂比較 Tuple<T1,T2,T3,T4,T5,T6,T7> 。 例如,您可以使用這個方法來根據特定元件的值來排序 Tuple<T1,T2,T3,T4,T5,T6,T7> 物件。
雖然可以直接呼叫這個方法,但最常由包含 IComparer 參數的集合排序方法來呼叫,以排序集合的成員。 例如,它會由 Array.Sort(Array, IComparer) 方法呼叫,以及 Add 使用 SortedList.SortedList(IComparer) 建構函式具現化之 SortedList 物件的 方法。
警告
方法 IStructuralComparable.CompareTo 適用于排序作業。 當比較的主要用途是判斷兩個物件是否相等時,不應該使用它。 若要判斷兩個物件是否相等,請呼叫 IStructuralEquatable.Equals 方法。