ArrayList.Item[Int32] Vlastnost

Definice

Získá nebo nastaví prvek u zadaného indexu.

public:
 virtual property System::Object ^ default[int] { System::Object ^ get(int index); void set(int index, System::Object ^ value); };
public virtual object this[int index] { get; set; }
public virtual object? this[int index] { get; set; }
member this.Item(int) : obj with get, set
Default Public Overridable Property Item(index As Integer) As Object

Parametry

index
Int32

Index prvku založený na nule, který se má získat nebo nastavit.

Hodnota vlastnosti

Prvek na pozici zadaného indexu.

Implementuje

Výjimky

Hodnota index je menší než nula.

-nebo-

index je rovno nebo větší než Count.

Příklady

Následující příklad kódu vytvoří ArrayList a přidá několik položek. Příklad ukazuje přístup k elementům pomocí Item[] vlastnosti (indexer v jazyce C#) a změnu elementu přiřazením nové hodnoty vlastnosti zadaného Item[] indexu. Příklad také ukazuje, že Item[] vlastnost nelze použít pro přístup k prvkům mimo aktuální velikost seznamu nebo je přidat.

using namespace System;
using namespace System::Collections;

public ref class Example
{
public:
    static void Main()
    {
        // Create an empty ArrayList, and add some elements.
        ArrayList^ stringList = gcnew ArrayList();

        stringList->Add("a");
        stringList->Add("abc");
        stringList->Add("abcdef");
        stringList->Add("abcdefg");

        // The Item property is an indexer, so the property name is
        // not required.
        Console::WriteLine("Element {0} is \"{1}\"", 2, stringList[2]);

        // Assigning a value to the property changes the value of
        // the indexed element.
        stringList[2] = "abcd";
        Console::WriteLine("Element {0} is \"{1}\"", 2, stringList[2]);

        // Accessing an element outside the current element count
        // causes an exception.
        Console::WriteLine("Number of elements in the list: {0}", 
            stringList->Count);
        try
        {
            Console::WriteLine("Element {0} is \"{1}\"", 
                stringList->Count, stringList[stringList->Count]);
        }
        catch (ArgumentOutOfRangeException^ aoore)
        {
            Console::WriteLine("stringList({0}) is out of range.", 
                stringList->Count);
        }

        // You cannot use the Item property to add new elements.
        try
        {
            stringList[stringList->Count] = "42";
        }
        catch (ArgumentOutOfRangeException^ aoore)
        {
            Console::WriteLine("stringList({0}) is out of range.", 
                stringList->Count);
        }

        Console::WriteLine();
        for (int i = 0; i < stringList->Count; i++)
        {
            Console::WriteLine("Element {0} is \"{1}\"", i, 
                stringList[i]);
        }

        Console::WriteLine();
        for each (Object^ o in stringList)
        {
            Console::WriteLine(o);
        }
    }
};

int main()
{
   Example::Main();
}
/*
 This code example produces the following output:

Element 2 is "abcdef"
Element 2 is "abcd"
Number of elements in the list: 4
stringList(4) is out of range.
stringList(4) is out of range.

Element 0 is "a"
Element 1 is "abc"
Element 2 is "abcd"
Element 3 is "abcdefg"

a
abc
abcd
abcdefg
 */
using System;
using System.Collections;

public class Example
{
    public static void Main()
    {
        // Create an empty ArrayList, and add some elements.
        ArrayList stringList = new ArrayList();

        stringList.Add("a");
        stringList.Add("abc");
        stringList.Add("abcdef");
        stringList.Add("abcdefg");

        // The Item property is an indexer, so the property name is
        // not required.
        Console.WriteLine("Element {0} is \"{1}\"", 2, stringList[2]);

        // Assigning a value to the property changes the value of
        // the indexed element.
        stringList[2] = "abcd";
        Console.WriteLine("Element {0} is \"{1}\"", 2, stringList[2]);

        // Accessing an element outside the current element count
        // causes an exception.
        Console.WriteLine("Number of elements in the list: {0}",
            stringList.Count);
        try
        {
            Console.WriteLine("Element {0} is \"{1}\"",
                stringList.Count, stringList[stringList.Count]);
        }
        catch(ArgumentOutOfRangeException aoore)
        {
            Console.WriteLine("stringList({0}) is out of range.",
                stringList.Count);
        }

        // You cannot use the Item property to add new elements.
        try
        {
            stringList[stringList.Count] = "42";
        }
        catch(ArgumentOutOfRangeException aoore)
        {
            Console.WriteLine("stringList({0}) is out of range.",
                stringList.Count);
        }

        Console.WriteLine();
        for (int i = 0; i < stringList.Count; i++)
        {
            Console.WriteLine("Element {0} is \"{1}\"", i,
                stringList[i]);
        }

        Console.WriteLine();
        foreach (object o in stringList)
        {
            Console.WriteLine(o);
        }
    }
}
/*
 This code example produces the following output:

Element 2 is "abcdef"
Element 2 is "abcd"
Number of elements in the list: 4
stringList(4) is out of range.
stringList(4) is out of range.

Element 0 is "a"
Element 1 is "abc"
Element 2 is "abcd"
Element 3 is "abcdefg"

a
abc
abcd
abcdefg
 */
Imports System.Collections

Public Class Example

    Public Shared Sub Main

        ' Create an empty ArrayList, and add some elements.
        Dim stringList As New ArrayList

        stringList.Add("a")
        stringList.Add("abc")
        stringList.Add("abcdef")
        stringList.Add("abcdefg")

        ' Item is the default property, so the property name is
        ' not required.
        Console.WriteLine("Element {0} is ""{1}""", 2, stringList(2))

        ' Assigning a value to the property changes the value of
        ' the indexed element.
        stringList(2) = "abcd"
        Console.WriteLine("Element {0} is ""{1}""", 2, stringList(2))

        ' Accessing an element outside the current element count
        ' causes an exception. The ArrayList index is zero-based,
        ' so the index of the last element is (Count - 1). 
        Console.WriteLine("Number of elements in the list: {0}", _
            stringList.Count)
        Try
            Console.WriteLine("Element {0} is ""{1}""", _
                stringList.Count, _
                stringList(stringList.Count))
        Catch aoore As ArgumentOutOfRangeException
            Console.WriteLine("stringList({0}) is out of range.", _
                stringList.Count)
        End Try

        ' You cannot use the Item property to add new elements.
        Try
            stringList(stringList.Count) = "42"
        Catch aoore As ArgumentOutOfRangeException
            Console.WriteLine("stringList({0}) is out of range.", _
                stringList.Count)
        End Try

        Console.WriteLine()
        For i As Integer = 0 To stringList.Count - 1
            Console.WriteLine("Element {0} is ""{1}""", i, stringList(i))
        Next

        Console.WriteLine()
        For Each o As Object In stringList
            Console.WriteLine(o)
        Next

    End Sub

End Class
'
' This code example produces the following output:
'
'Element 2 is "abcdef"
'Element 2 is "abcd"
'Number of elements in the list: 4
'stringList(4) is out of range.
'stringList(4) is out of range.
'
'Element 0 is "a"
'Element 1 is "abc"
'Element 2 is "abcd"
'Element 3 is "abcdefg"
'
'a
'abc
'abcd
'abcdefg

Následující příklad používá Item[] vlastnost explicitně k přiřazení hodnot k položkám v seznamu. Příklad definuje třídu, která dědí a ArrayList přidá metodu pro zakódovat položky seznamu.

using namespace System;
using namespace System::Collections;

public ref class ScrambleList : public ArrayList
{
public:
    static void Main()
    {
        // Create an empty ArrayList, and add some elements.
        ScrambleList^ integerList = gcnew ScrambleList();

        for (int i = 0; i < 10; i++)
        {
            integerList->Add(i);
        }

        Console::WriteLine("Ordered:\n");
        for each (int value in integerList)
        {
            Console::Write("{0}, ", value);
        }
        Console::WriteLine("<end>\n\nScrambled:\n");

        // Scramble the order of the items in the list.
        integerList->Scramble();

        for each (int value in integerList)
        {
            Console::Write("{0}, ", value);
        }
        Console::WriteLine("<end>\n");
    }

    void Scramble()
    {
        int limit = this->Count;
        int temp;
        int swapindex;
        Random^ rnd = gcnew Random();
        for (int i = 0; i < limit; i++)
        {
            // The Item property of ArrayList is the default indexer. Thus,
            // this->default[i] and this[i] are used interchangeably.
            temp = (int)this->default[i];
            swapindex = rnd->Next(0, limit - 1);
            this[i] = this->default[swapindex];
            this[swapindex] = temp;
        }
    }
};

int main()
{
    ScrambleList::Main();
}
// The program produces output similar to the following:
//
// Ordered:
//
// 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, <end>
//
// Scrambled:
//
// 5, 2, 8, 9, 6, 1, 7, 0, 4, 3, <end>
using System;
using System.Collections;

public class ScrambleList : ArrayList
{
    public static void Main()
    {
        // Create an empty ArrayList, and add some elements.
        ScrambleList integerList = new ScrambleList();

        for (int i = 0; i < 10; i++)
        {
            integerList.Add(i);
        }

        Console.WriteLine("Ordered:\n");
        foreach (int value in integerList)
        {
            Console.Write("{0}, ", value);
        }
        Console.WriteLine("<end>\n\nScrambled:\n");

        // Scramble the order of the items in the list.
        integerList.Scramble();

        foreach (int value in integerList)
        {
            Console.Write("{0}, ", value);
        }
        Console.WriteLine("<end>\n");
    }

    public void Scramble()
    {
        int limit = this.Count;
        int temp;
        int swapindex;
        Random rnd = new Random();
        for (int i = 0; i < limit; i++)
        {
            // The Item property of ArrayList is the default indexer. Thus,
            // this[i] is used instead of Item[i].
            temp = (int)this[i];
            swapindex = rnd.Next(0, limit - 1);
            this[i] = this[swapindex];
            this[swapindex] = temp;
        }
    }
}

// The program produces output similar to the following:
//
// Ordered:
//
// 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, <end>
//
// Scrambled:
//
// 5, 2, 8, 9, 6, 1, 7, 0, 4, 3, <end>
Imports System.Collections

Public Class ScrambleList
    Inherits ArrayList

    Public Shared Sub Main()
        ' Create an empty ArrayList, and add some elements.
        Dim integerList As New ScrambleList()

        For i As Integer = 0 To 9
            integerList.Add(i)
        Next i

        Console.WriteLine("Ordered:" + Environment.NewLine)
        For Each value As Integer In integerList
            Console.Write("{0}, ", value)
        Next value
        Console.WriteLine("<end>" + Environment.NewLine + Environment.NewLine + "Scrambled:" + Environment.NewLine)

        ' Scramble the order of the items in the list.
        integerList.Scramble()

        For Each value As Integer In integerList
            Console.Write("{0}, ", value)
        Next value
        Console.WriteLine("<end>" + Environment.NewLine)
    End Sub

    Public Sub Scramble()
        Dim limit As Integer = MyClass.Count
        Dim temp As Integer
        Dim swapindex As Integer
        Dim rnd As New Random()
        For i As Integer = 0 To limit - 1
            ' The Item property of ArrayList is the default indexer. Thus,
            ' Me(i) and MyClass.Item(i) are used interchangeably.
            temp = CType(Me(i), Integer)
            swapindex = rnd.Next(0, limit - 1)
            MyClass.Item(i) = Me(swapindex)
            MyClass.Item(swapindex) = temp
        Next i
    End Sub
End Class

' The program produces output similar to the following:
'
' Ordered:
'
' 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, <end>
'
' Scrambled:
'
' 5, 2, 8, 9, 6, 1, 7, 0, 4, 3, <end>

Poznámky

Vrátí Item[] hodnotu Object, takže možná budete muset přetypovat vrácenou hodnotu na původní typ, abyste s ní mohli manipulovat. Je důležité si uvědomit, že ArrayList se nejedná o kolekci silného typu. Alternativu silného typu najdete v tématu List<T>.

ArrayList přijímá null jako platnou hodnotu a umožňuje duplicitní prvky.

Tato vlastnost poskytuje možnost přístupu ke konkrétnímu prvku v kolekci pomocí následující syntaxe: myCollection[index].

Jazyk C# používá this klíčové slovo k definování indexerů místo implementace Item[] vlastnosti. Visual Basic se implementuje Item[] jako výchozí vlastnost, která poskytuje stejné funkce indexování.

Načtení hodnoty této vlastnosti je O(1) operace. Nastavení vlastnosti je také O(1) operace.

Platí pro

Viz také