List<T>.Sort Metode
Definisi
Penting
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Mengurutkan elemen atau sebagian elemen dalam List<T> menggunakan implementasi yang ditentukan atau default IComparer<T> atau delegasi yang disediakan Comparison<T> untuk membandingkan elemen daftar.
Overload
| Sort(Comparison<T>) |
Mengurutkan elemen di seluruh List<T> menggunakan yang ditentukan Comparison<T>. |
| Sort(Int32, Int32, IComparer<T>) |
Mengurutkan elemen dalam rentang elemen dalam List<T> menggunakan pembanding yang ditentukan. |
| Sort() |
Mengurutkan elemen di seluruh List<T> menggunakan pembanding default. |
| Sort(IComparer<T>) |
Mengurutkan elemen di seluruh List<T> menggunakan perbandingan yang ditentukan. |
Sort(Comparison<T>)
- Sumber:
- List.cs
- Sumber:
- List.cs
- Sumber:
- List.cs
Mengurutkan elemen di seluruh List<T> menggunakan yang ditentukan Comparison<T>.
public:
void Sort(Comparison<T> ^ comparison);public void Sort (Comparison<T> comparison);member this.Sort : Comparison<'T> -> unitPublic Sub Sort (comparison As Comparison(Of T))Parameter
- comparison
- Comparison<T>
yang Comparison<T> digunakan saat membandingkan elemen.
Pengecualian
comparisonadalah null.
Implementasi comparison menyebabkan kesalahan selama pengurutan. Misalnya, comparison mungkin tidak mengembalikan 0 saat membandingkan item dengan item itu sendiri.
Contoh
Kode berikut menunjukkan Sort metode dan Sort kelebihan beban pada objek bisnis sederhana. Memanggil metode menghasilkan penggunaan pembanding Sort default untuk jenis Bagian, dan Sort metode diimplementasikan menggunakan metode anonim.
using System;
using System.Collections.Generic;
// Simple business object. A PartId is used to identify the type of part
// but the part name can change.
public class Part : IEquatable<Part> , IComparable<Part>
{
public string PartName { get; set; }
public int PartId { get; set; }
public override string ToString()
{
return "ID: " + PartId + " Name: " + PartName;
}
public override bool Equals(object obj)
{
if (obj == null) return false;
Part objAsPart = obj as Part;
if (objAsPart == null) return false;
else return Equals(objAsPart);
}
public int SortByNameAscending(string name1, string name2)
{
return name1.CompareTo(name2);
}
// Default comparer for Part type.
public int CompareTo(Part comparePart)
{
// A null value means that this object is greater.
if (comparePart == null)
return 1;
else
return this.PartId.CompareTo(comparePart.PartId);
}
public override int GetHashCode()
{
return PartId;
}
public bool Equals(Part other)
{
if (other == null) return false;
return (this.PartId.Equals(other.PartId));
}
// Should also override == and != operators.
}
public class Example
{
public static void Main()
{
// Create a list of parts.
List<Part> parts = new List<Part>();
// Add parts to the list.
parts.Add(new Part() { PartName = "regular seat", PartId = 1434 });
parts.Add(new Part() { PartName= "crank arm", PartId = 1234 });
parts.Add(new Part() { PartName = "shift lever", PartId = 1634 }); ;
// Name intentionally left null.
parts.Add(new Part() { PartId = 1334 });
parts.Add(new Part() { PartName = "banana seat", PartId = 1444 });
parts.Add(new Part() { PartName = "cassette", PartId = 1534 });
// Write out the parts in the list. This will call the overridden
// ToString method in the Part class.
Console.WriteLine("\nBefore sort:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
// Call Sort on the list. This will use the
// default comparer, which is the Compare method
// implemented on Part.
parts.Sort();
Console.WriteLine("\nAfter sort by part number:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
// This shows calling the Sort(Comparison(T) overload using
// an anonymous method for the Comparison delegate.
// This method treats null as the lesser of two values.
parts.Sort(delegate(Part x, Part y)
{
if (x.PartName == null && y.PartName == null) return 0;
else if (x.PartName == null) return -1;
else if (y.PartName == null) return 1;
else return x.PartName.CompareTo(y.PartName);
});
Console.WriteLine("\nAfter sort by name:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
/*
Before sort:
ID: 1434 Name: regular seat
ID: 1234 Name: crank arm
ID: 1634 Name: shift lever
ID: 1334 Name:
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
After sort by part number:
ID: 1234 Name: crank arm
ID: 1334 Name:
ID: 1434 Name: regular seat
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
ID: 1634 Name: shift lever
After sort by name:
ID: 1334 Name:
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
ID: 1234 Name: crank arm
ID: 1434 Name: regular seat
ID: 1634 Name: shift lever
*/
}
}
Imports System.Collections.Generic
' Simple business object. A PartId is used to identify the type of part
' but the part name can change.
Public Class Part
Implements IEquatable(Of Part)
Implements IComparable(Of Part)
Public Property PartName() As String
Get
Return m_PartName
End Get
Set(value As String)
m_PartName = Value
End Set
End Property
Private m_PartName As String
Public Property PartId() As Integer
Get
Return m_PartId
End Get
Set(value As Integer)
m_PartId = Value
End Set
End Property
Private m_PartId As Integer
Public Overrides Function ToString() As String
Return "ID: " & PartId & " Name: " & PartName
End Function
Public Overrides Function Equals(obj As Object) As Boolean
If obj Is Nothing Then
Return False
End If
Dim objAsPart As Part = TryCast(obj, Part)
If objAsPart Is Nothing Then
Return False
Else
Return Equals(objAsPart)
End If
End Function
Public Function SortByNameAscending(name1 As String, name2 As String) As Integer
Return name1.CompareTo(name2)
End Function
' Default comparer for Part.
Public Function CompareTo(comparePart As Part) As Integer _
Implements IComparable(Of ListSortVB.Part).CompareTo
' A null value means that this object is greater.
If comparePart Is Nothing Then
Return 1
Else
Return Me.PartId.CompareTo(comparePart.PartId)
End If
End Function
Public Overrides Function GetHashCode() As Integer
Return PartId
End Function
Public Overloads Function Equals(other As Part) As Boolean Implements IEquatable(Of ListSortVB.Part).Equals
If other Is Nothing Then
Return False
End If
Return (Me.PartId.Equals(other.PartId))
End Function
' Should also override == and != operators.
End Class
Public Class Example
Public Shared Sub Main()
' Create a list of parts.
Dim parts As New List(Of Part)()
' Add parts to the list.
parts.Add(New Part() With { _
.PartName = "regular seat", _
.PartId = 1434 _
})
parts.Add(New Part() With { _
.PartName = "crank arm", _
.PartId = 1234 _
})
parts.Add(New Part() With { _
.PartName = "shift lever", _
.PartId = 1634 _
})
' Name intentionally left null.
parts.Add(New Part() With { _
.PartId = 1334 _
})
parts.Add(New Part() With { _
.PartName = "banana seat", _
.PartId = 1444 _
})
parts.Add(New Part() With { _
.PartName = "cassette", _
.PartId = 1534 _
})
' Write out the parts in the list. This will call the overridden
' ToString method in the Part class.
Console.WriteLine(vbLf & "Before sort:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
' Call Sort on the list. This will use the
' default comparer, which is the Compare method
' implemented on Part.
parts.Sort()
Console.WriteLine(vbLf & "After sort by part number:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
' This shows calling the Sort(Comparison(T) overload using
' an anonymous delegate method.
' This method treats null as the lesser of two values.
parts.Sort(Function(x As Part, y As Part)
If x.PartName Is Nothing AndAlso y.PartName Is Nothing Then
Return 0
ElseIf x.PartName Is Nothing Then
Return -1
ElseIf y.PartName Is Nothing Then
Return 1
Else
Return x.PartName.CompareTo(y.PartName)
End If
End Function)
Console.WriteLine(vbLf & "After sort by name:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
'
'
' Before sort:
' ID: 1434 Name: regular seat
' ID: 1234 Name: crank arm
' ID: 1634 Name: shift lever
' ID: 1334 Name:
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
'
' After sort by part number:
' ID: 1234 Name: crank arm
' ID: 1334 Name:
' ID: 1434 Name: regular seat
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
' ID: 1634 Name: shift lever
'
' After sort by name:
' ID: 1334 Name:
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
' ID: 1234 Name: crank arm
' ID: 1434 Name: regular seat
' ID: 1634 Name: shift lever
End Sub
End Class
Contoh berikut menunjukkan Sort(Comparison<T>) metode kelebihan beban.
Contoh mendefinisikan metode perbandingan alternatif untuk string, bernama CompareDinosByLength. Metode ini berfungsi sebagai berikut: Pertama, perbandingan diuji untuk null, dan referensi null diperlakukan kurang dari non-null. Kedua, panjang string dibandingkan, dan string yang lebih panjang dianggap lebih besar. Ketiga, jika panjangnya sama, perbandingan string biasa digunakan.
List<T> String dibuat dan diisi dengan empat string, tanpa urutan tertentu. Daftar ini juga menyertakan string kosong dan referensi null. Daftar ditampilkan, diurutkan menggunakan delegasi generik yang Comparison<T> mewakili CompareDinosByLength metode , dan ditampilkan lagi.
using namespace System;
using namespace System::Collections::Generic;
int CompareDinosByLength(String^ x, String^ y)
{
if (x == nullptr)
{
if (y == nullptr)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == nullptr)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x->Length.CompareTo(y->Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x->CompareTo(y);
}
}
}
};
void Display(List<String^>^ list)
{
Console::WriteLine();
for each(String^ s in list)
{
if (s == nullptr)
Console::WriteLine("(null)");
else
Console::WriteLine("\"{0}\"", s);
}
};
void main()
{
List<String^>^ dinosaurs = gcnew List<String^>();
dinosaurs->Add("Pachycephalosaurus");
dinosaurs->Add("Amargasaurus");
dinosaurs->Add("");
dinosaurs->Add(nullptr);
dinosaurs->Add("Mamenchisaurus");
dinosaurs->Add("Deinonychus");
Display(dinosaurs);
Console::WriteLine("\nSort with generic Comparison<String^> delegate:");
dinosaurs->Sort(
gcnew Comparison<String^>(CompareDinosByLength));
Display(dinosaurs);
}
/* This code example produces the following output:
"Pachycephalosaurus"
"Amargasaurus"
""
(null)
"Mamenchisaurus"
"Deinonychus"
Sort with generic Comparison<String^> delegate:
(null)
""
"Deinonychus"
"Amargasaurus"
"Mamenchisaurus"
"Pachycephalosaurus"
*/
using System;
using System.Collections.Generic;
public class Example
{
private static int CompareDinosByLength(string x, string y)
{
if (x == null)
{
if (y == null)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == null)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x.Length.CompareTo(y.Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x.CompareTo(y);
}
}
}
}
public static void Main()
{
List<string> dinosaurs = new List<string>();
dinosaurs.Add("Pachycephalosaurus");
dinosaurs.Add("Amargasaurus");
dinosaurs.Add("");
dinosaurs.Add(null);
dinosaurs.Add("Mamenchisaurus");
dinosaurs.Add("Deinonychus");
Display(dinosaurs);
Console.WriteLine("\nSort with generic Comparison<string> delegate:");
dinosaurs.Sort(CompareDinosByLength);
Display(dinosaurs);
}
private static void Display(List<string> list)
{
Console.WriteLine();
foreach( string s in list )
{
if (s == null)
Console.WriteLine("(null)");
else
Console.WriteLine("\"{0}\"", s);
}
}
}
/* This code example produces the following output:
"Pachycephalosaurus"
"Amargasaurus"
""
(null)
"Mamenchisaurus"
"Deinonychus"
Sort with generic Comparison<string> delegate:
(null)
""
"Deinonychus"
"Amargasaurus"
"Mamenchisaurus"
"Pachycephalosaurus"
*/
Imports System.Collections.Generic
Public Class Example
Private Shared Function CompareDinosByLength( _
ByVal x As String, ByVal y As String) As Integer
If x Is Nothing Then
If y Is Nothing Then
' If x is Nothing and y is Nothing, they're
' equal.
Return 0
Else
' If x is Nothing and y is not Nothing, y
' is greater.
Return -1
End If
Else
' If x is not Nothing...
'
If y Is Nothing Then
' ...and y is Nothing, x is greater.
Return 1
Else
' ...and y is not Nothing, compare the
' lengths of the two strings.
'
Dim retval As Integer = _
x.Length.CompareTo(y.Length)
If retval <> 0 Then
' If the strings are not of equal length,
' the longer string is greater.
'
Return retval
Else
' If the strings are of equal length,
' sort them with ordinary string comparison.
'
Return x.CompareTo(y)
End If
End If
End If
End Function
Public Shared Sub Main()
Dim dinosaurs As New List(Of String)
dinosaurs.Add("Pachycephalosaurus")
dinosaurs.Add("Amargasaurus")
dinosaurs.Add("")
dinosaurs.Add(Nothing)
dinosaurs.Add("Mamenchisaurus")
dinosaurs.Add("Deinonychus")
Display(dinosaurs)
Console.WriteLine(vbLf & "Sort with generic Comparison(Of String) delegate:")
dinosaurs.Sort(AddressOf CompareDinosByLength)
Display(dinosaurs)
End Sub
Private Shared Sub Display(ByVal lis As List(Of String))
Console.WriteLine()
For Each s As String In lis
If s Is Nothing Then
Console.WriteLine("(Nothing)")
Else
Console.WriteLine("""{0}""", s)
End If
Next
End Sub
End Class
' This code example produces the following output:
'
'"Pachycephalosaurus"
'"Amargasaurus"
'""
'(Nothing)
'"Mamenchisaurus"
'"Deinonychus"
'
'Sort with generic Comparison(Of String) delegate:
'
'(Nothing)
'""
'"Deinonychus"
'"Amargasaurus"
'"Mamenchisaurus"
'"Pachycephalosaurus"
Keterangan
Jika comparison disediakan, elemen List<T> diurutkan menggunakan metode yang diwakili oleh delegasi.
Jika comparison adalah null, akan ArgumentNullException dilemparkan.
Metode ini menggunakan Array.Sort, yang menerapkan pengurutan introspektif sebagai berikut:
Jika ukuran partisi kurang dari atau sama dengan 16 elemen, ia menggunakan algoritma pengurutan penyisipan
Jika jumlah partisi melebihi 2 log n, di mana n adalah rentang array input, ia menggunakan algoritma Heapsort .
Jika tidak, ia menggunakan algoritma Quicksort.
Implementasi ini melakukan pengurutan yang tidak stabil; artinya, jika dua elemen sama, urutannya mungkin tidak dipertahankan. Sebaliknya, pengurutan stabil mempertahankan urutan elemen yang sama.
Metode ini adalah operasi O(n log n), di mana n adalah Count.
Lihat juga
Berlaku untuk
Sort(Int32, Int32, IComparer<T>)
- Sumber:
- List.cs
- Sumber:
- List.cs
- Sumber:
- List.cs
Mengurutkan elemen dalam rentang elemen dalam List<T> menggunakan pembanding yang ditentukan.
public:
void Sort(int index, int count, System::Collections::Generic::IComparer<T> ^ comparer);public void Sort (int index, int count, System.Collections.Generic.IComparer<T> comparer);public void Sort (int index, int count, System.Collections.Generic.IComparer<T>? comparer);member this.Sort : int * int * System.Collections.Generic.IComparer<'T> -> unitPublic Sub Sort (index As Integer, count As Integer, comparer As IComparer(Of T))Parameter
- index
- Int32
Indeks awal berbasis nol dari rentang yang akan diurutkan.
- count
- Int32
Panjang rentang untuk diurutkan.
- comparer
- IComparer<T>
Implementasi yang IComparer<T> digunakan saat membandingkan elemen, atau null untuk menggunakan pembanding Defaultdefault .
Pengecualian
index dan count jangan tentukan rentang yang valid dalam List<T>.
-atau-
Implementasi comparer menyebabkan kesalahan selama pengurutan. Misalnya, comparer mungkin tidak mengembalikan 0 saat membandingkan item dengan item itu sendiri.
comparer adalah null, dan pembanding Default default tidak dapat menemukan implementasi IComparable<T> antarmuka generik atau IComparable antarmuka untuk jenis T.
Contoh
Contoh berikut menunjukkan Sort(Int32, Int32, IComparer<T>) metode kelebihan beban dan BinarySearch(Int32, Int32, T, IComparer<T>) metode kelebihan beban.
Contoh mendefinisikan pembanding alternatif untuk string bernama DinoCompare, yang mengimplementasikan IComparer<string> (IComparer(Of String) di Visual Basic, IComparer<String^> di antarmuka generik Visual C++). Pembanding berfungsi sebagai berikut: Pertama, perbandingan diuji untuk null, dan referensi null diperlakukan kurang dari non-null. Kedua, panjang string dibandingkan, dan string yang lebih panjang dianggap lebih besar. Ketiga, jika panjangnya sama, perbandingan string biasa digunakan.
Sebuah List<T> string dibuat dan diisi dengan nama lima dinosang herbivora dan tiga dinosang karnivora. Dalam masing-masing dari dua grup, nama tidak dalam urutan sortir tertentu. Daftar ditampilkan, rentang herbivora diurutkan menggunakan perbandingan alternatif, dan daftar ditampilkan lagi.
Metode BinarySearch(Int32, Int32, T, IComparer<T>) kelebihan beban kemudian digunakan untuk mencari hanya rentang herbivora untuk "Brachiosaurus". String tidak ditemukan, dan pelengkap bitwise (operator ~ di C# dan Visual C++, Xor -1 di Visual Basic) dari angka negatif yang dikembalikan oleh BinarySearch(Int32, Int32, T, IComparer<T>) metode digunakan sebagai indeks untuk menyisipkan string baru.
using namespace System;
using namespace System::Collections::Generic;
public ref class DinoComparer: IComparer<String^>
{
public:
virtual int Compare(String^ x, String^ y)
{
if (x == nullptr)
{
if (y == nullptr)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == nullptr)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x->Length.CompareTo(y->Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x->CompareTo(y);
}
}
}
}
};
void Display(List<String^>^ list)
{
Console::WriteLine();
for each(String^ s in list)
{
Console::WriteLine(s);
}
};
void main()
{
List<String^>^ dinosaurs = gcnew List<String^>();
dinosaurs->Add("Pachycephalosaurus");
dinosaurs->Add("Parasauralophus");
dinosaurs->Add("Amargasaurus");
dinosaurs->Add("Galimimus");
dinosaurs->Add("Mamenchisaurus");
dinosaurs->Add("Deinonychus");
dinosaurs->Add("Oviraptor");
dinosaurs->Add("Tyrannosaurus");
int herbivores = 5;
Display(dinosaurs);
DinoComparer^ dc = gcnew DinoComparer();
Console::WriteLine("\nSort a range with the alternate comparer:");
dinosaurs->Sort(0, herbivores, dc);
Display(dinosaurs);
Console::WriteLine("\nBinarySearch a range and Insert \"{0}\":",
"Brachiosaurus");
int index = dinosaurs->BinarySearch(0, herbivores, "Brachiosaurus", dc);
if (index < 0)
{
dinosaurs->Insert(~index, "Brachiosaurus");
herbivores++;
}
Display(dinosaurs);
}
/* This code example produces the following output:
Pachycephalosaurus
Parasauralophus
Amargasaurus
Galimimus
Mamenchisaurus
Deinonychus
Oviraptor
Tyrannosaurus
Sort a range with the alternate comparer:
Galimimus
Amargasaurus
Mamenchisaurus
Parasauralophus
Pachycephalosaurus
Deinonychus
Oviraptor
Tyrannosaurus
BinarySearch a range and Insert "Brachiosaurus":
Galimimus
Amargasaurus
Brachiosaurus
Mamenchisaurus
Parasauralophus
Pachycephalosaurus
Deinonychus
Oviraptor
Tyrannosaurus
*/
using System;
using System.Collections.Generic;
public class DinoComparer: IComparer<string>
{
public int Compare(string x, string y)
{
if (x == null)
{
if (y == null)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == null)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x.Length.CompareTo(y.Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x.CompareTo(y);
}
}
}
}
}
public class Example
{
public static void Main()
{
List<string> dinosaurs = new List<string>();
dinosaurs.Add("Pachycephalosaurus");
dinosaurs.Add("Parasauralophus");
dinosaurs.Add("Amargasaurus");
dinosaurs.Add("Galimimus");
dinosaurs.Add("Mamenchisaurus");
dinosaurs.Add("Deinonychus");
dinosaurs.Add("Oviraptor");
dinosaurs.Add("Tyrannosaurus");
int herbivores = 5;
Display(dinosaurs);
DinoComparer dc = new DinoComparer();
Console.WriteLine("\nSort a range with the alternate comparer:");
dinosaurs.Sort(0, herbivores, dc);
Display(dinosaurs);
Console.WriteLine("\nBinarySearch a range and Insert \"{0}\":",
"Brachiosaurus");
int index = dinosaurs.BinarySearch(0, herbivores, "Brachiosaurus", dc);
if (index < 0)
{
dinosaurs.Insert(~index, "Brachiosaurus");
herbivores++;
}
Display(dinosaurs);
}
private static void Display(List<string> list)
{
Console.WriteLine();
foreach( string s in list )
{
Console.WriteLine(s);
}
}
}
/* This code example produces the following output:
Pachycephalosaurus
Parasauralophus
Amargasaurus
Galimimus
Mamenchisaurus
Deinonychus
Oviraptor
Tyrannosaurus
Sort a range with the alternate comparer:
Galimimus
Amargasaurus
Mamenchisaurus
Parasauralophus
Pachycephalosaurus
Deinonychus
Oviraptor
Tyrannosaurus
BinarySearch a range and Insert "Brachiosaurus":
Galimimus
Amargasaurus
Brachiosaurus
Mamenchisaurus
Parasauralophus
Pachycephalosaurus
Deinonychus
Oviraptor
Tyrannosaurus
*/
Imports System.Collections.Generic
Public Class DinoComparer
Implements IComparer(Of String)
Public Function Compare(ByVal x As String, _
ByVal y As String) As Integer _
Implements IComparer(Of String).Compare
If x Is Nothing Then
If y Is Nothing Then
' If x is Nothing and y is Nothing, they're
' equal.
Return 0
Else
' If x is Nothing and y is not Nothing, y
' is greater.
Return -1
End If
Else
' If x is not Nothing...
'
If y Is Nothing Then
' ...and y is Nothing, x is greater.
Return 1
Else
' ...and y is not Nothing, compare the
' lengths of the two strings.
'
Dim retval As Integer = _
x.Length.CompareTo(y.Length)
If retval <> 0 Then
' If the strings are not of equal length,
' the longer string is greater.
'
Return retval
Else
' If the strings are of equal length,
' sort them with ordinary string comparison.
'
Return x.CompareTo(y)
End If
End If
End If
End Function
End Class
Public Class Example
Public Shared Sub Main()
Dim dinosaurs As New List(Of String)
dinosaurs.Add("Pachycephalosaurus")
dinosaurs.Add("Parasauralophus")
dinosaurs.Add("Amargasaurus")
dinosaurs.Add("Galimimus")
dinosaurs.Add("Mamenchisaurus")
dinosaurs.Add("Deinonychus")
dinosaurs.Add("Oviraptor")
dinosaurs.Add("Tyrannosaurus")
Dim herbivores As Integer = 5
Display(dinosaurs)
Dim dc As New DinoComparer
Console.WriteLine(vbLf & _
"Sort a range with the alternate comparer:")
dinosaurs.Sort(0, herbivores, dc)
Display(dinosaurs)
Console.WriteLine(vbLf & _
"BinarySearch a range and Insert ""{0}"":", _
"Brachiosaurus")
Dim index As Integer = _
dinosaurs.BinarySearch(0, herbivores, "Brachiosaurus", dc)
If index < 0 Then
index = index Xor -1
dinosaurs.Insert(index, "Brachiosaurus")
herbivores += 1
End If
Display(dinosaurs)
End Sub
Private Shared Sub Display(ByVal lis As List(Of String))
Console.WriteLine()
For Each s As String In lis
Console.WriteLine(s)
Next
End Sub
End Class
' This code example produces the following output:
'
'Pachycephalosaurus
'Parasauralophus
'Amargasaurus
'Galimimus
'Mamenchisaurus
'Deinonychus
'Oviraptor
'Tyrannosaurus
'
'Sort a range with the alternate comparer:
'
'Galimimus
'Amargasaurus
'Mamenchisaurus
'Parasauralophus
'Pachycephalosaurus
'Deinonychus
'Oviraptor
'Tyrannosaurus
'
'BinarySearch a range and Insert "Brachiosaurus":
'
'Galimimus
'Amargasaurus
'Brachiosaurus
'Mamenchisaurus
'Parasauralophus
'Pachycephalosaurus
'Deinonychus
'Oviraptor
'Tyrannosaurus
Keterangan
Jika comparer disediakan, elemen diurutkan List<T> menggunakan implementasi yang ditentukan IComparer<T> .
Jika comparer adalah null, pembanding Comparer<T>.Default default memeriksa apakah jenis T mengimplementasikan antarmuka generik dan menggunakan implementasi tersebut IComparable<T> , jika tersedia. Jika tidak, Comparer<T>.Default memeriksa apakah jenis T mengimplementasikan IComparable antarmuka. Jika jenis T tidak mengimplementasikan salah satu antarmuka, Comparer<T>.Default melempar InvalidOperationException.
Metode ini menggunakan Array.Sort, yang menerapkan pengurutan introspektif sebagai berikut:
Jika ukuran partisi kurang dari atau sama dengan 16 elemen, ia menggunakan algoritma pengurutan penyisipan
Jika jumlah partisi melebihi 2 log n, di mana n adalah rentang array input, ia menggunakan algoritma Heapsort .
Jika tidak, ia menggunakan algoritma Quicksort.
Implementasi ini melakukan pengurutan yang tidak stabil; artinya, jika dua elemen sama, urutannya mungkin tidak dipertahankan. Sebaliknya, pengurutan stabil mempertahankan urutan elemen yang sama.
Metode ini adalah operasi O(n log n), di mana n adalah Count.
Lihat juga
Berlaku untuk
Sort()
- Sumber:
- List.cs
- Sumber:
- List.cs
- Sumber:
- List.cs
Mengurutkan elemen di seluruh List<T> menggunakan pembanding default.
public:
void Sort();public void Sort ();member this.Sort : unit -> unitPublic Sub Sort ()Pengecualian
Pembanding Default default tidak dapat menemukan implementasi IComparable<T> antarmuka generik atau IComparable antarmuka untuk jenis T.
Contoh
Contoh berikut menambahkan beberapa nama ke List<String> objek, menampilkan daftar dalam urutan yang tidak diurutkan, memanggil Sort metode, lalu menampilkan daftar yang diurutkan.
String[] names = { "Samuel", "Dakota", "Koani", "Saya", "Vanya", "Jody",
"Yiska", "Yuma", "Jody", "Nikita" };
var nameList = new List<String>();
nameList.AddRange(names);
Console.WriteLine("List in unsorted order: ");
foreach (var name in nameList)
Console.Write(" {0}", name);
Console.WriteLine(Environment.NewLine);
nameList.Sort();
Console.WriteLine("List in sorted order: ");
foreach (var name in nameList)
Console.Write(" {0}", name);
Console.WriteLine();
// The example displays the following output:
// List in unsorted order:
// Samuel Dakota Koani Saya Vanya Jody Yiska Yuma Jody Nikita
//
// List in sorted order:
// Dakota Jody Jody Koani Nikita Samuel Saya Vanya Yiska Yuma
Imports System.Collections.Generic
Module Example
Public Sub Main()
Dim names() As String = { "Samuel", "Dakota", "Koani", "Saya",
"Vanya", "Jody", "Yiska", "Yuma",
"Jody", "Nikita" }
Dim nameList As New List(Of String)()
nameList.AddRange(names)
Console.WriteLine("List in unsorted order: ")
For Each name In nameList
Console.Write(" {0}", name)
Next
Console.WriteLine(vbCrLf)
nameList.Sort()
Console.WriteLine("List in sorted order: ")
For Each name In nameList
Console.Write(" {0}", name)
Next
Console.WriteLine()
End Sub
End Module
' The example displays the following output:
' List in unsorted order:
' Samuel Dakota Koani Saya Vanya Jody Yiska Yuma Jody Nikita
'
' List in sorted order:
' Dakota Jody Jody Koani Nikita Samuel Saya Vanya Yiska Yuma
Kode berikut menunjukkan Sort() metode dan Sort(Comparison<T>) kelebihan beban pada objek bisnis sederhana. Memanggil metode menghasilkan penggunaan pembanding Sort() default untuk jenis Bagian, dan Sort(Comparison<T>) metode diimplementasikan dengan menggunakan metode anonim.
using System;
using System.Collections.Generic;
// Simple business object. A PartId is used to identify the type of part
// but the part name can change.
public class Part : IEquatable<Part> , IComparable<Part>
{
public string PartName { get; set; }
public int PartId { get; set; }
public override string ToString()
{
return "ID: " + PartId + " Name: " + PartName;
}
public override bool Equals(object obj)
{
if (obj == null) return false;
Part objAsPart = obj as Part;
if (objAsPart == null) return false;
else return Equals(objAsPart);
}
public int SortByNameAscending(string name1, string name2)
{
return name1.CompareTo(name2);
}
// Default comparer for Part type.
public int CompareTo(Part comparePart)
{
// A null value means that this object is greater.
if (comparePart == null)
return 1;
else
return this.PartId.CompareTo(comparePart.PartId);
}
public override int GetHashCode()
{
return PartId;
}
public bool Equals(Part other)
{
if (other == null) return false;
return (this.PartId.Equals(other.PartId));
}
// Should also override == and != operators.
}
public class Example
{
public static void Main()
{
// Create a list of parts.
List<Part> parts = new List<Part>();
// Add parts to the list.
parts.Add(new Part() { PartName = "regular seat", PartId = 1434 });
parts.Add(new Part() { PartName= "crank arm", PartId = 1234 });
parts.Add(new Part() { PartName = "shift lever", PartId = 1634 }); ;
// Name intentionally left null.
parts.Add(new Part() { PartId = 1334 });
parts.Add(new Part() { PartName = "banana seat", PartId = 1444 });
parts.Add(new Part() { PartName = "cassette", PartId = 1534 });
// Write out the parts in the list. This will call the overridden
// ToString method in the Part class.
Console.WriteLine("\nBefore sort:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
// Call Sort on the list. This will use the
// default comparer, which is the Compare method
// implemented on Part.
parts.Sort();
Console.WriteLine("\nAfter sort by part number:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
// This shows calling the Sort(Comparison(T) overload using
// an anonymous method for the Comparison delegate.
// This method treats null as the lesser of two values.
parts.Sort(delegate(Part x, Part y)
{
if (x.PartName == null && y.PartName == null) return 0;
else if (x.PartName == null) return -1;
else if (y.PartName == null) return 1;
else return x.PartName.CompareTo(y.PartName);
});
Console.WriteLine("\nAfter sort by name:");
foreach (Part aPart in parts)
{
Console.WriteLine(aPart);
}
/*
Before sort:
ID: 1434 Name: regular seat
ID: 1234 Name: crank arm
ID: 1634 Name: shift lever
ID: 1334 Name:
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
After sort by part number:
ID: 1234 Name: crank arm
ID: 1334 Name:
ID: 1434 Name: regular seat
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
ID: 1634 Name: shift lever
After sort by name:
ID: 1334 Name:
ID: 1444 Name: banana seat
ID: 1534 Name: cassette
ID: 1234 Name: crank arm
ID: 1434 Name: regular seat
ID: 1634 Name: shift lever
*/
}
}
Imports System.Collections.Generic
' Simple business object. A PartId is used to identify the type of part
' but the part name can change.
Public Class Part
Implements IEquatable(Of Part)
Implements IComparable(Of Part)
Public Property PartName() As String
Get
Return m_PartName
End Get
Set(value As String)
m_PartName = Value
End Set
End Property
Private m_PartName As String
Public Property PartId() As Integer
Get
Return m_PartId
End Get
Set(value As Integer)
m_PartId = Value
End Set
End Property
Private m_PartId As Integer
Public Overrides Function ToString() As String
Return "ID: " & PartId & " Name: " & PartName
End Function
Public Overrides Function Equals(obj As Object) As Boolean
If obj Is Nothing Then
Return False
End If
Dim objAsPart As Part = TryCast(obj, Part)
If objAsPart Is Nothing Then
Return False
Else
Return Equals(objAsPart)
End If
End Function
Public Function SortByNameAscending(name1 As String, name2 As String) As Integer
Return name1.CompareTo(name2)
End Function
' Default comparer for Part.
Public Function CompareTo(comparePart As Part) As Integer _
Implements IComparable(Of ListSortVB.Part).CompareTo
' A null value means that this object is greater.
If comparePart Is Nothing Then
Return 1
Else
Return Me.PartId.CompareTo(comparePart.PartId)
End If
End Function
Public Overrides Function GetHashCode() As Integer
Return PartId
End Function
Public Overloads Function Equals(other As Part) As Boolean Implements IEquatable(Of ListSortVB.Part).Equals
If other Is Nothing Then
Return False
End If
Return (Me.PartId.Equals(other.PartId))
End Function
' Should also override == and != operators.
End Class
Public Class Example
Public Shared Sub Main()
' Create a list of parts.
Dim parts As New List(Of Part)()
' Add parts to the list.
parts.Add(New Part() With { _
.PartName = "regular seat", _
.PartId = 1434 _
})
parts.Add(New Part() With { _
.PartName = "crank arm", _
.PartId = 1234 _
})
parts.Add(New Part() With { _
.PartName = "shift lever", _
.PartId = 1634 _
})
' Name intentionally left null.
parts.Add(New Part() With { _
.PartId = 1334 _
})
parts.Add(New Part() With { _
.PartName = "banana seat", _
.PartId = 1444 _
})
parts.Add(New Part() With { _
.PartName = "cassette", _
.PartId = 1534 _
})
' Write out the parts in the list. This will call the overridden
' ToString method in the Part class.
Console.WriteLine(vbLf & "Before sort:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
' Call Sort on the list. This will use the
' default comparer, which is the Compare method
' implemented on Part.
parts.Sort()
Console.WriteLine(vbLf & "After sort by part number:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
' This shows calling the Sort(Comparison(T) overload using
' an anonymous delegate method.
' This method treats null as the lesser of two values.
parts.Sort(Function(x As Part, y As Part)
If x.PartName Is Nothing AndAlso y.PartName Is Nothing Then
Return 0
ElseIf x.PartName Is Nothing Then
Return -1
ElseIf y.PartName Is Nothing Then
Return 1
Else
Return x.PartName.CompareTo(y.PartName)
End If
End Function)
Console.WriteLine(vbLf & "After sort by name:")
For Each aPart As Part In parts
Console.WriteLine(aPart)
Next
'
'
' Before sort:
' ID: 1434 Name: regular seat
' ID: 1234 Name: crank arm
' ID: 1634 Name: shift lever
' ID: 1334 Name:
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
'
' After sort by part number:
' ID: 1234 Name: crank arm
' ID: 1334 Name:
' ID: 1434 Name: regular seat
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
' ID: 1634 Name: shift lever
'
' After sort by name:
' ID: 1334 Name:
' ID: 1444 Name: banana seat
' ID: 1534 Name: cassette
' ID: 1234 Name: crank arm
' ID: 1434 Name: regular seat
' ID: 1634 Name: shift lever
End Sub
End Class
Contoh berikut menunjukkan Sort() metode kelebihan beban dan BinarySearch(T) metode kelebihan beban. List<T> String dibuat dan diisi dengan empat string, tanpa urutan tertentu. Daftar ditampilkan, diurutkan, dan ditampilkan lagi.
Metode BinarySearch(T) kelebihan beban kemudian digunakan untuk mencari dua string yang tidak ada dalam daftar, dan Insert metode ini digunakan untuk menyisipkannya. Nilai BinarySearch pengembalian metode negatif dalam setiap kasus, karena string tidak ada dalam daftar. Mengambil pelengkap bitwise (operator ~ di C# dan Visual C++, Xor -1 di Visual Basic) dari angka negatif ini menghasilkan indeks elemen pertama dalam daftar yang lebih besar dari string pencarian, dan menyisipkan di lokasi ini mempertahankan urutan pengurutan. String pencarian kedua lebih besar dari elemen apa pun dalam daftar, sehingga posisi penyisipan berada di akhir daftar.
using namespace System;
using namespace System::Collections::Generic;
void main()
{
List<String^>^ dinosaurs = gcnew List<String^>();
dinosaurs->Add("Pachycephalosaurus");
dinosaurs->Add("Amargasaurus");
dinosaurs->Add("Mamenchisaurus");
dinosaurs->Add("Deinonychus");
Console::WriteLine();
for each(String^ dinosaur in dinosaurs)
{
Console::WriteLine(dinosaur);
}
Console::WriteLine("\nSort");
dinosaurs->Sort();
Console::WriteLine();
for each(String^ dinosaur in dinosaurs)
{
Console::WriteLine(dinosaur);
}
Console::WriteLine("\nBinarySearch and Insert \"Coelophysis\":");
int index = dinosaurs->BinarySearch("Coelophysis");
if (index < 0)
{
dinosaurs->Insert(~index, "Coelophysis");
}
Console::WriteLine();
for each(String^ dinosaur in dinosaurs)
{
Console::WriteLine(dinosaur);
}
Console::WriteLine("\nBinarySearch and Insert \"Tyrannosaurus\":");
index = dinosaurs->BinarySearch("Tyrannosaurus");
if (index < 0)
{
dinosaurs->Insert(~index, "Tyrannosaurus");
}
Console::WriteLine();
for each(String^ dinosaur in dinosaurs)
{
Console::WriteLine(dinosaur);
}
}
/* This code example produces the following output:
Pachycephalosaurus
Amargasaurus
Mamenchisaurus
Deinonychus
Sort
Amargasaurus
Deinonychus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Coelophysis":
Amargasaurus
Coelophysis
Deinonychus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Tyrannosaurus":
Amargasaurus
Coelophysis
Deinonychus
Mamenchisaurus
Pachycephalosaurus
Tyrannosaurus
*/
List<string> dinosaurs = new List<string>();
dinosaurs.Add("Pachycephalosaurus");
dinosaurs.Add("Amargasaurus");
dinosaurs.Add("Mamenchisaurus");
dinosaurs.Add("Deinonychus");
Console.WriteLine("Initial list:");
Console.WriteLine();
foreach(string dinosaur in dinosaurs)
{
Console.WriteLine(dinosaur);
}
Console.WriteLine("\nSort:");
dinosaurs.Sort();
Console.WriteLine();
foreach(string dinosaur in dinosaurs)
{
Console.WriteLine(dinosaur);
}
Console.WriteLine("\nBinarySearch and Insert \"Coelophysis\":");
int index = dinosaurs.BinarySearch("Coelophysis");
if (index < 0)
{
dinosaurs.Insert(~index, "Coelophysis");
}
Console.WriteLine();
foreach(string dinosaur in dinosaurs)
{
Console.WriteLine(dinosaur);
}
Console.WriteLine("\nBinarySearch and Insert \"Tyrannosaurus\":");
index = dinosaurs.BinarySearch("Tyrannosaurus");
if (index < 0)
{
dinosaurs.Insert(~index, "Tyrannosaurus");
}
Console.WriteLine();
foreach(string dinosaur in dinosaurs)
{
Console.WriteLine(dinosaur);
}
/* This code example produces the following output:
Initial list:
Pachycephalosaurus
Amargasaurus
Mamenchisaurus
Deinonychus
Sort:
Amargasaurus
Deinonychus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Coelophysis":
Amargasaurus
Coelophysis
Deinonychus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Tyrannosaurus":
Amargasaurus
Coelophysis
Deinonychus
Mamenchisaurus
Pachycephalosaurus
Tyrannosaurus
*/
Imports System.Collections.Generic
Public Class Example
Public Shared Sub Main()
Dim dinosaurs As New List(Of String)
dinosaurs.Add("Pachycephalosaurus")
dinosaurs.Add("Amargasaurus")
dinosaurs.Add("Mamenchisaurus")
dinosaurs.Add("Deinonychus")
Console.WriteLine()
For Each dinosaur As String In dinosaurs
Console.WriteLine(dinosaur)
Next
Console.WriteLine(vbLf & "Sort")
dinosaurs.Sort
Console.WriteLine()
For Each dinosaur As String In dinosaurs
Console.WriteLine(dinosaur)
Next
Console.WriteLine(vbLf & _
"BinarySearch and Insert ""Coelophysis"":")
Dim index As Integer = dinosaurs.BinarySearch("Coelophysis")
If index < 0 Then
index = index Xor -1
dinosaurs.Insert(index, "Coelophysis")
End If
Console.WriteLine()
For Each dinosaur As String In dinosaurs
Console.WriteLine(dinosaur)
Next
Console.WriteLine(vbLf & _
"BinarySearch and Insert ""Tyrannosaurus"":")
index = dinosaurs.BinarySearch("Tyrannosaurus")
If index < 0 Then
index = index Xor -1
dinosaurs.Insert(index, "Tyrannosaurus")
End If
Console.WriteLine()
For Each dinosaur As String In dinosaurs
Console.WriteLine(dinosaur)
Next
End Sub
End Class
' This code example produces the following output:
'
'Pachycephalosaurus
'Amargasaurus
'Mamenchisaurus
'Deinonychus
'
'Sort
'
'Amargasaurus
'Deinonychus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "Coelophysis":
'
'Amargasaurus
'Coelophysis
'Deinonychus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "Tyrannosaurus":
'
'Amargasaurus
'Coelophysis
'Deinonychus
'Mamenchisaurus
'Pachycephalosaurus
'Tyrannosaurus
Keterangan
Metode ini menggunakan perbandingan Comparer<T>.Default default untuk jenis T untuk menentukan urutan elemen daftar. Properti Comparer<T>.Default memeriksa apakah jenis T mengimplementasikan antarmuka generik dan menggunakan implementasi tersebut IComparable<T> , jika tersedia. Jika tidak, Comparer<T>.Default memeriksa apakah jenis T mengimplementasikan IComparable antarmuka. Jika jenis T tidak mengimplementasikan salah satu antarmuka, Comparer<T>.Default melempar InvalidOperationException.
Metode ini menggunakan Array.Sort metode , yang menerapkan pengurutan introspektif sebagai berikut:
Jika ukuran partisi kurang dari atau sama dengan 16 elemen, ia menggunakan algoritma pengurutan penyisipan.
Jika jumlah partisi melebihi 2 log n, di mana n adalah rentang array input, ia menggunakan algoritma Heapsort.
Jika tidak, ia menggunakan algoritma Quicksort.
Implementasi ini melakukan pengurutan yang tidak stabil; artinya, jika dua elemen sama, urutannya mungkin tidak dipertahankan. Sebaliknya, pengurutan stabil mempertahankan urutan elemen yang sama.
Metode ini adalah operasi O(n log n), di mana n adalah Count.
Lihat juga
Berlaku untuk
Sort(IComparer<T>)
- Sumber:
- List.cs
- Sumber:
- List.cs
- Sumber:
- List.cs
Mengurutkan elemen di seluruh List<T> menggunakan perbandingan yang ditentukan.
public:
void Sort(System::Collections::Generic::IComparer<T> ^ comparer);public void Sort (System.Collections.Generic.IComparer<T> comparer);public void Sort (System.Collections.Generic.IComparer<T>? comparer);member this.Sort : System.Collections.Generic.IComparer<'T> -> unitPublic Sub Sort (comparer As IComparer(Of T))Parameter
- comparer
- IComparer<T>
Implementasi yang IComparer<T> digunakan saat membandingkan elemen, atau null untuk menggunakan pembanding Defaultdefault .
Pengecualian
comparer adalah null, dan pembanding Default default tidak dapat menemukan implementasi IComparable<T> antarmuka generik atau IComparable antarmuka untuk jenis T.
Implementasi comparer menyebabkan kesalahan selama pengurutan. Misalnya, comparer mungkin tidak mengembalikan 0 saat membandingkan item dengan item itu sendiri.
Contoh
Contoh berikut menunjukkan Sort(IComparer<T>) metode kelebihan beban dan BinarySearch(T, IComparer<T>) metode kelebihan beban.
Contoh mendefinisikan pembanding alternatif untuk string bernama DinoCompare, yang mengimplementasikan IComparer<string> (IComparer(Of String) di Visual Basic, IComparer<String^> di antarmuka generik Visual C++). Pembanding berfungsi sebagai berikut: Pertama, perbandingan diuji untuk null, dan referensi null diperlakukan kurang dari non-null. Kedua, panjang string dibandingkan, dan string yang lebih panjang dianggap lebih besar. Ketiga, jika panjangnya sama, perbandingan string biasa digunakan.
List<T> String dibuat dan diisi dengan empat string, tanpa urutan tertentu. Daftar ditampilkan, diurutkan menggunakan pembanding alternatif, dan ditampilkan lagi.
Metode BinarySearch(T, IComparer<T>) kelebihan beban kemudian digunakan untuk mencari beberapa string yang tidak ada dalam daftar, menggunakan perbandingan alternatif. Metode Insert ini digunakan untuk menyisipkan string. Kedua metode ini terletak dalam fungsi bernama SearchAndInsert, bersama dengan kode untuk mengambil pelengkap bitwise (operator ~ di C# dan Visual C++, Xor -1 di Visual Basic) dari angka negatif yang dikembalikan oleh BinarySearch(T, IComparer<T>) dan menggunakannya sebagai indeks untuk menyisipkan string baru.
using namespace System;
using namespace System::Collections::Generic;
public ref class DinoComparer: IComparer<String^>
{
public:
virtual int Compare(String^ x, String^ y)
{
if (x == nullptr)
{
if (y == nullptr)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == nullptr)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x->Length.CompareTo(y->Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x->CompareTo(y);
}
}
}
}
};
void SearchAndInsert(List<String^>^ list, String^ insert,
DinoComparer^ dc)
{
Console::WriteLine("\nBinarySearch and Insert \"{0}\":", insert);
int index = list->BinarySearch(insert, dc);
if (index < 0)
{
list->Insert(~index, insert);
}
};
void Display(List<String^>^ list)
{
Console::WriteLine();
for each(String^ s in list)
{
Console::WriteLine(s);
}
};
void main()
{
List<String^>^ dinosaurs = gcnew List<String^>();
dinosaurs->Add("Pachycephalosaurus");
dinosaurs->Add("Amargasaurus");
dinosaurs->Add("Mamenchisaurus");
dinosaurs->Add("Deinonychus");
Display(dinosaurs);
DinoComparer^ dc = gcnew DinoComparer();
Console::WriteLine("\nSort with alternate comparer:");
dinosaurs->Sort(dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Coelophysis", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Oviraptor", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Tyrannosaur", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, nullptr, dc);
Display(dinosaurs);
}
/* This code example produces the following output:
Pachycephalosaurus
Amargasaurus
Mamenchisaurus
Deinonychus
Sort with alternate comparer:
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Coelophysis":
Coelophysis
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Oviraptor":
Oviraptor
Coelophysis
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Tyrannosaur":
Oviraptor
Coelophysis
Deinonychus
Tyrannosaur
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "":
Oviraptor
Coelophysis
Deinonychus
Tyrannosaur
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
*/
using System;
using System.Collections.Generic;
public class DinoComparer: IComparer<string>
{
public int Compare(string x, string y)
{
if (x == null)
{
if (y == null)
{
// If x is null and y is null, they're
// equal.
return 0;
}
else
{
// If x is null and y is not null, y
// is greater.
return -1;
}
}
else
{
// If x is not null...
//
if (y == null)
// ...and y is null, x is greater.
{
return 1;
}
else
{
// ...and y is not null, compare the
// lengths of the two strings.
//
int retval = x.Length.CompareTo(y.Length);
if (retval != 0)
{
// If the strings are not of equal length,
// the longer string is greater.
//
return retval;
}
else
{
// If the strings are of equal length,
// sort them with ordinary string comparison.
//
return x.CompareTo(y);
}
}
}
}
}
public class Example
{
public static void Main()
{
List<string> dinosaurs = new List<string>();
dinosaurs.Add("Pachycephalosaurus");
dinosaurs.Add("Amargasaurus");
dinosaurs.Add("Mamenchisaurus");
dinosaurs.Add("Deinonychus");
Display(dinosaurs);
DinoComparer dc = new DinoComparer();
Console.WriteLine("\nSort with alternate comparer:");
dinosaurs.Sort(dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Coelophysis", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Oviraptor", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, "Tyrannosaur", dc);
Display(dinosaurs);
SearchAndInsert(dinosaurs, null, dc);
Display(dinosaurs);
}
private static void SearchAndInsert(List<string> list,
string insert, DinoComparer dc)
{
Console.WriteLine("\nBinarySearch and Insert \"{0}\":", insert);
int index = list.BinarySearch(insert, dc);
if (index < 0)
{
list.Insert(~index, insert);
}
}
private static void Display(List<string> list)
{
Console.WriteLine();
foreach( string s in list )
{
Console.WriteLine(s);
}
}
}
/* This code example produces the following output:
Pachycephalosaurus
Amargasaurus
Mamenchisaurus
Deinonychus
Sort with alternate comparer:
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Coelophysis":
Coelophysis
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Oviraptor":
Oviraptor
Coelophysis
Deinonychus
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "Tyrannosaur":
Oviraptor
Coelophysis
Deinonychus
Tyrannosaur
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
BinarySearch and Insert "":
Oviraptor
Coelophysis
Deinonychus
Tyrannosaur
Amargasaurus
Mamenchisaurus
Pachycephalosaurus
*/
Imports System.Collections.Generic
Public Class DinoComparer
Implements IComparer(Of String)
Public Function Compare(ByVal x As String, _
ByVal y As String) As Integer _
Implements IComparer(Of String).Compare
If x Is Nothing Then
If y Is Nothing Then
' If x is Nothing and y is Nothing, they're
' equal.
Return 0
Else
' If x is Nothing and y is not Nothing, y
' is greater.
Return -1
End If
Else
' If x is not Nothing...
'
If y Is Nothing Then
' ...and y is Nothing, x is greater.
Return 1
Else
' ...and y is not Nothing, compare the
' lengths of the two strings.
'
Dim retval As Integer = _
x.Length.CompareTo(y.Length)
If retval <> 0 Then
' If the strings are not of equal length,
' the longer string is greater.
'
Return retval
Else
' If the strings are of equal length,
' sort them with ordinary string comparison.
'
Return x.CompareTo(y)
End If
End If
End If
End Function
End Class
Public Class Example
Public Shared Sub Main()
Dim dinosaurs As New List(Of String)
dinosaurs.Add("Pachycephalosaurus")
dinosaurs.Add("Amargasaurus")
dinosaurs.Add("Mamenchisaurus")
dinosaurs.Add("Deinonychus")
Display(dinosaurs)
Dim dc As New DinoComparer
Console.WriteLine(vbLf & "Sort with alternate comparer:")
dinosaurs.Sort(dc)
Display(dinosaurs)
SearchAndInsert(dinosaurs, "Coelophysis", dc)
Display(dinosaurs)
SearchAndInsert(dinosaurs, "Oviraptor", dc)
Display(dinosaurs)
SearchAndInsert(dinosaurs, "Tyrannosaur", dc)
Display(dinosaurs)
SearchAndInsert(dinosaurs, Nothing, dc)
Display(dinosaurs)
End Sub
Private Shared Sub SearchAndInsert( _
ByVal lis As List(Of String), _
ByVal insert As String, ByVal dc As DinoComparer)
Console.WriteLine(vbLf & _
"BinarySearch and Insert ""{0}"":", insert)
Dim index As Integer = lis.BinarySearch(insert, dc)
If index < 0 Then
index = index Xor -1
lis.Insert(index, insert)
End If
End Sub
Private Shared Sub Display(ByVal lis As List(Of String))
Console.WriteLine()
For Each s As String In lis
Console.WriteLine(s)
Next
End Sub
End Class
' This code example produces the following output:
'
'Pachycephalosaurus
'Amargasaurus
'Mamenchisaurus
'Deinonychus
'
'Sort with alternate comparer:
'
'Deinonychus
'Amargasaurus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "Coelophysis":
'
'Coelophysis
'Deinonychus
'Amargasaurus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "Oviraptor":
'
'Oviraptor
'Coelophysis
'Deinonychus
'Amargasaurus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "Tyrannosaur":
'
'Oviraptor
'Coelophysis
'Deinonychus
'Tyrannosaur
'Amargasaurus
'Mamenchisaurus
'Pachycephalosaurus
'
'BinarySearch and Insert "":
'
'
'Oviraptor
'Coelophysis
'Deinonychus
'Tyrannosaur
'Amargasaurus
'Mamenchisaurus
'Pachycephalosaurus
Keterangan
Jika comparer disediakan, elemen diurutkan List<T> menggunakan implementasi yang ditentukan IComparer<T> .
Jika comparer adalah null, pembanding Comparer<T>.Default default memeriksa apakah jenis T mengimplementasikan antarmuka generik dan menggunakan implementasi tersebut IComparable<T> , jika tersedia. Jika tidak, Comparer<T>.Default memeriksa apakah jenis T mengimplementasikan IComparable antarmuka. Jika jenis T tidak mengimplementasikan salah satu antarmuka, Comparer<T>.Default melempar InvalidOperationException.
Metode ini menggunakan Array.Sort metode , yang menerapkan pengurutan introspektif sebagai berikut:
Jika ukuran partisi kurang dari atau sama dengan 16 elemen, ia menggunakan algoritma pengurutan penyisipan.
Jika jumlah partisi melebihi 2 log n, di mana n adalah rentang array input, ia menggunakan algoritma Heapsort.
Jika tidak, ia menggunakan algoritma Quicksort.
Implementasi ini melakukan pengurutan yang tidak stabil; artinya, jika dua elemen sama, urutannya mungkin tidak dipertahankan. Sebaliknya, pengurutan stabil mempertahankan urutan elemen yang sama.
Metode ini adalah operasi O(n log n), di mana n adalah Count.
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