IOrderedDictionary.GetEnumerator Método
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Devuelve un enumerador que itera por la colección IOrderedDictionary.
public:
System::Collections::IDictionaryEnumerator ^ GetEnumerator();public System.Collections.IDictionaryEnumerator GetEnumerator ();abstract member GetEnumerator : unit -> System.Collections.IDictionaryEnumeratorPublic Function GetEnumerator () As IDictionaryEnumeratorDevoluciones
IDictionaryEnumerator para toda la colección IOrderedDictionary.
Implementaciones
Ejemplos
En el ejemplo de código siguiente se muestra la implementación de una clase simple IOrderedDictionary basada en la ArrayList clase . El implementado IOrderedDictionary almacena los nombres de los nombres como claves y apellidos como valores, con el requisito agregado de que cada nombre es único. Este código forma parte de un ejemplo de código más grande proporcionado para la IOrderedDictionary clase .
public ref class PeopleEnum : IDictionaryEnumerator
{
private:
// Enumerators are positioned before the first element
// until the first MoveNext() call.
int position;
ArrayList^ _people;
public:
PeopleEnum(ArrayList^ list)
{
this->Reset();
_people = list;
}
virtual bool MoveNext()
{
position++;
return (position < _people->Count);
}
virtual void Reset()
{
position = -1;
}
virtual property Object^ Current
{
Object^ get()
{
try
{
return _people[position];
}
catch (IndexOutOfRangeException^)
{
throw gcnew InvalidOperationException();
}
}
}
virtual property DictionaryEntry Entry
{
DictionaryEntry get()
{
return (DictionaryEntry)(Current);
}
}
virtual property Object^ Key
{
Object^ get()
{
try
{
return ((DictionaryEntry^)_people[position])->Key;
}
catch (IndexOutOfRangeException^)
{
throw gcnew InvalidOperationException();
}
}
}
virtual property Object^ Value
{
Object^ get()
{
try
{
return ((DictionaryEntry^)_people[position])->Value;
}
catch (IndexOutOfRangeException^)
{
throw gcnew InvalidOperationException();
}
}
}
};
public ref class People : IOrderedDictionary
{
private:
ArrayList^ _people;
public:
People(int numItems)
{
_people = gcnew ArrayList(numItems);
}
int IndexOfKey(Object^ key)
{
for (int i = 0; i < _people->Count; i++)
{
if (((DictionaryEntry^)_people[i])->Key == key)
return i;
}
// key not found, return -1.
return -1;
}
virtual property Object^ default[Object^]
{
Object^ get(Object^ key)
{
return ((DictionaryEntry^)_people[IndexOfKey(key)])->Value;
}
void set(Object^ key, Object^ value)
{
_people[IndexOfKey(key)] = gcnew DictionaryEntry(key, value);
}
}
// IOrderedDictionary Members
virtual IDictionaryEnumerator^ GetEnumerator()
{
return gcnew PeopleEnum(_people);
}
virtual void Insert(int index, Object^ key, Object^ value)
{
if (IndexOfKey(key) != -1)
{
throw gcnew ArgumentException("An element with the same key already exists in the collection.");
}
_people->Insert(index, gcnew DictionaryEntry(key, value));
}
virtual void RemoveAt(int index)
{
_people->RemoveAt(index);
}
virtual property Object^ default[int]
{
Object^ get(int index)
{
return ((DictionaryEntry^)_people[index])->Value;
}
void set(int index, Object^ value)
{
Object^ key = ((DictionaryEntry^)_people[index])->Key;
_people[index] = gcnew DictionaryEntry(key, value);
}
}
// IDictionary Members
virtual void Add(Object^ key, Object^ value)
{
if (IndexOfKey(key) != -1)
{
throw gcnew ArgumentException("An element with the same key already exists in the collection.");
}
_people->Add(gcnew DictionaryEntry(key, value));
}
virtual void Clear()
{
_people->Clear();
}
virtual bool Contains(Object^ key)
{
if (IndexOfKey(key) == -1)
{
return false;
}
else
{
return true;
}
}
virtual property bool IsFixedSize
{
bool get()
{
return false;
}
}
virtual property bool IsReadOnly
{
bool get()
{
return false;
}
}
virtual property ICollection^ Keys
{
ICollection^ get()
{
ArrayList^ KeyCollection = gcnew ArrayList(_people->Count);
for (int i = 0; i < _people->Count; i++)
{
KeyCollection->Add( ((DictionaryEntry^)_people[i])->Key );
}
return KeyCollection;
}
}
virtual void Remove(Object^ key)
{
_people->RemoveAt(IndexOfKey(key));
}
virtual property ICollection^ Values
{
ICollection ^get()
{
ArrayList^ ValueCollection = gcnew ArrayList(_people->Count);
for (int i = 0; i < _people->Count; i++)
{
ValueCollection->Add( ((DictionaryEntry^)_people[i])->Value );
}
return ValueCollection;
}
}
// ICollection Members
virtual void CopyTo(Array^ array, int index)
{
_people->CopyTo(array, index);
}
virtual property int Count
{
int get()
{
return _people->Count;
}
}
virtual property bool IsSynchronized
{
bool get()
{
return _people->IsSynchronized;
}
}
virtual property Object^ SyncRoot
{
Object^ get()
{
return _people->SyncRoot;
}
}
// IEnumerable Members
virtual IEnumerator^ IfcGetEnumerator() = IEnumerable::GetEnumerator
{
return (IEnumerator^) gcnew PeopleEnum(_people);
}
};
public class People : IOrderedDictionary
{
private ArrayList _people;
public People(int numItems)
{
_people = new ArrayList(numItems);
}
public int IndexOfKey(object key)
{
for (int i = 0; i < _people.Count; i++)
{
if (((DictionaryEntry)_people[i]).Key == key)
return i;
}
// key not found, return -1.
return -1;
}
public object this[object key]
{
get
{
return ((DictionaryEntry)_people[IndexOfKey(key)]).Value;
}
set
{
_people[IndexOfKey(key)] = new DictionaryEntry(key, value);
}
}
// IOrderedDictionary Members
public IDictionaryEnumerator GetEnumerator()
{
return new PeopleEnum(_people);
}
public void Insert(int index, object key, object value)
{
if (IndexOfKey(key) != -1)
{
throw new ArgumentException("An element with the same key already exists in the collection.");
}
_people.Insert(index, new DictionaryEntry(key, value));
}
public void RemoveAt(int index)
{
_people.RemoveAt(index);
}
public object this[int index]
{
get
{
return ((DictionaryEntry)_people[index]).Value;
}
set
{
object key = ((DictionaryEntry)_people[index]).Key;
_people[index] = new DictionaryEntry(key, value);
}
}
// IDictionary Members
public void Add(object key, object value)
{
if (IndexOfKey(key) != -1)
{
throw new ArgumentException("An element with the same key already exists in the collection.");
}
_people.Add(new DictionaryEntry(key, value));
}
public void Clear()
{
_people.Clear();
}
public bool Contains(object key)
{
if (IndexOfKey(key) == -1)
{
return false;
}
else
{
return true;
}
}
public bool IsFixedSize
{
get
{
return false;
}
}
public bool IsReadOnly
{
get
{
return false;
}
}
public ICollection Keys
{
get
{
ArrayList KeyCollection = new ArrayList(_people.Count);
for (int i = 0; i < _people.Count; i++)
{
KeyCollection.Add( ((DictionaryEntry)_people[i]).Key );
}
return KeyCollection;
}
}
public void Remove(object key)
{
_people.RemoveAt(IndexOfKey(key));
}
public ICollection Values
{
get
{
ArrayList ValueCollection = new ArrayList(_people.Count);
for (int i = 0; i < _people.Count; i++)
{
ValueCollection.Add( ((DictionaryEntry)_people[i]).Value );
}
return ValueCollection;
}
}
// ICollection Members
public void CopyTo(Array array, int index)
{
_people.CopyTo(array, index);
}
public int Count
{
get
{
return _people.Count;
}
}
public bool IsSynchronized
{
get
{
return _people.IsSynchronized;
}
}
public object SyncRoot
{
get
{
return _people.SyncRoot;
}
}
// IEnumerable Members
IEnumerator IEnumerable.GetEnumerator()
{
return new PeopleEnum(_people);
}
}
public class PeopleEnum : IDictionaryEnumerator
{
public ArrayList _people;
// Enumerators are positioned before the first element
// until the first MoveNext() call.
int position = -1;
public PeopleEnum(ArrayList list)
{
_people = list;
}
public bool MoveNext()
{
position++;
return (position < _people.Count);
}
public void Reset()
{
position = -1;
}
public object Current
{
get
{
try
{
return _people[position];
}
catch (IndexOutOfRangeException)
{
throw new InvalidOperationException();
}
}
}
public DictionaryEntry Entry
{
get
{
return (DictionaryEntry)Current;
}
}
public object Key
{
get
{
try
{
return ((DictionaryEntry)_people[position]).Key;
}
catch (IndexOutOfRangeException)
{
throw new InvalidOperationException();
}
}
}
public object Value
{
get
{
try
{
return ((DictionaryEntry)_people[position]).Value;
}
catch (IndexOutOfRangeException)
{
throw new InvalidOperationException();
}
}
}
}
Public Class People
Implements IOrderedDictionary
Private _people As ArrayList
Public Sub New(ByVal numItems As Integer)
_people = New ArrayList(numItems)
End Sub
Public Function IndexOfKey(ByVal key As Object) As Integer
Dim i As Integer
For i = 0 To _people.Count - 1
If CType(_people(i), DictionaryEntry).Key = key Then
Return i
End If
Next i
' key not found, return -1.
Return -1
End Function
' IOrderedDictionary Members
Public Function GetEnumerator() As IDictionaryEnumerator _
Implements IOrderedDictionary.GetEnumerator
Return New PeopleEnum(_people)
End Function
Public Sub Insert(ByVal index As Integer, ByVal key As Object, _
ByVal value As Object) Implements IOrderedDictionary.Insert
If Not IndexOfKey(key) = -1 Then
Throw New ArgumentException("An element with the same key already exists in the collection.")
End If
_people.Insert(index, New DictionaryEntry(key, value))
End Sub
Public Sub RemoveAt(ByVal index As Integer) _
Implements IOrderedDictionary.RemoveAt
_people.RemoveAt(index)
End Sub
Public Property Item(ByVal index As Integer) As Object _
Implements IOrderedDictionary.Item
Get
Return CType(_people(index), DictionaryEntry).Value
End Get
Set(ByVal value As Object)
Dim key As Object = CType(_people(index), DictionaryEntry).Key
_people(index) = New DictionaryEntry(key, value)
End Set
End Property
' IDictionary Members
Public Function IDictionaryGetEnumerator() As IDictionaryEnumerator _
Implements IDictionary.GetEnumerator
Return New PeopleEnum(_people)
End Function
Public Property Item(ByVal key As Object) As Object _
Implements IDictionary.Item
Get
Return CType(_people(IndexOfKey(key)), DictionaryEntry).Value
End Get
Set(ByVal value)
_people(IndexOfKey(key)) = New DictionaryEntry(key, value)
End Set
End Property
Public Sub Add(ByVal key As Object, ByVal value As Object) _
Implements IDictionary.Add
If Not IndexOfKey(key) = -1 Then
Throw New ArgumentException("An element with the same key already exists in the collection.")
End If
_people.Add(New DictionaryEntry(key, value))
End Sub
Public Sub Clear() Implements IDictionary.Clear
_people.Clear()
End Sub
Public Function Contains(ByVal key As Object) As Boolean _
Implements IDictionary.Contains
If IndexOfKey(key) = -1 Then
Return False
Else
Return True
End If
End Function
Public ReadOnly Property IsFixedSize() As Boolean _
Implements IDictionary.IsFixedSize
Get
Return False
End Get
End Property
Public ReadOnly Property IsReadOnly() As Boolean _
Implements IDictionary.IsReadOnly
Get
Return False
End Get
End Property
Public ReadOnly Property Keys() As ICollection _
Implements IDictionary.Keys
Get
Dim KeyCollection As ArrayList = New ArrayList(_people.Count)
Dim i As Integer
For i = 0 To _people.Count - 1
KeyCollection.Add( CType(_people(i), DictionaryEntry).Key )
Next i
Return KeyCollection
End Get
End Property
Public Sub Remove(ByVal key As Object) _
Implements IDictionary.Remove
_people.RemoveAt(IndexOfKey(key))
End Sub
Public ReadOnly Property Values() As ICollection _
Implements IDictionary.Values
Get
Dim ValueCollection As ArrayList = New ArrayList(_people.Count)
Dim i As Integer
For i = 0 To _people.Count - 1
ValueCollection.Add( CType(_people(i), DictionaryEntry).Value )
Next i
Return ValueCollection
End Get
End Property
' ICollection Members
Public Sub CopyTo(ByVal array As Array, ByVal index As Integer) _
Implements ICollection.CopyTo
_people.CopyTo(Array, index)
End Sub
Public ReadOnly Property Count() As Integer _
Implements ICollection.Count
Get
Return _people.Count
End Get
End Property
Public ReadOnly Property IsSynchronized() As Boolean _
Implements ICollection.IsSynchronized
Get
Return _people.IsSynchronized
End Get
End Property
Public ReadOnly Property SyncRoot() As Object _
Implements ICollection.SyncRoot
Get
Return _people.SyncRoot
End Get
End Property
' IEnumerable Members
Public Function IEnumerableGetEnumerator() As IEnumerator _
Implements IEnumerable.GetEnumerator
Return New PeopleEnum(_people)
End Function
End Class
Public Class PeopleEnum
Implements IDictionaryEnumerator
Public _people As ArrayList
' Enumerators are positioned before the first element
' until the first MoveNext() call.
Dim position As Integer = -1
Public Sub New(ByVal list As ArrayList)
_people = list
End Sub
Public Function MoveNext() As Boolean _
Implements IEnumerator.MoveNext
position = position + 1
Return (position < _people.Count)
End Function
Public Sub Reset() _
Implements IEnumerator.Reset
position = -1
End Sub
Public ReadOnly Property Current() As Object _
Implements IEnumerator.Current
Get
Try
Return _people(position)
Catch e As IndexOutOfRangeException
Throw New InvalidOperationException()
End Try
End Get
End Property
Public ReadOnly Property Entry() As DictionaryEntry _
Implements IDictionaryEnumerator.Entry
Get
Return CType(Current, DictionaryEntry)
End Get
End Property
Public ReadOnly Property Key() As Object _
Implements IDictionaryEnumerator.Key
Get
Try
Return CType(_people(position), DictionaryEntry).Key
Catch e As IndexOutOfRangeException
Throw New InvalidOperationException()
End Try
End Get
End Property
Public ReadOnly Property Value() As Object _
Implements IDictionaryEnumerator.Value
Get
Try
Return CType(_people(position), DictionaryEntry).Value
Catch e As IndexOutOfRangeException
Throw New InvalidOperationException()
End Try
End Get
End Property
End Class
Comentarios
La instrucción foreach del lenguaje C# (for each en Visual Basic) oculta la complejidad de los enumeradores. Por lo tanto, se recomienda usar foreach en lugar de manipular directamente el enumerador.
Los enumeradores pueden usarse para leer los datos de la colección, pero no para modificar la colección subyacente.
En principio, el enumerador se coloca antes del primer elemento de la colección. Reset también devuelve el enumerador a esta posición. En esta posición, la Current propiedad no está definida. Por lo tanto, debe llamar a MoveNext para adelantar el enumerador hasta el primer elemento de la colección antes de leer el valor de Current.
Current devuelve el mismo objeto hasta que se llama a MoveNext o a Reset. MoveNext establece Current en el siguiente elemento.
Si MoveNext pasa el final de la colección, el enumerador se coloca después del último elemento de la colección y MoveNext devuelve false. Cuando el enumerador está en esta posición, las llamadas posteriores a MoveNext también devuelven false. Si la última llamada a MoveNext se falsedevuelve , Current no está definida. Para volver a establecer el valor de Current en el primer elemento de la colección, se puede llamar primero a Reset y después a MoveNext.
Un enumerador sigue siendo válido mientras la colección permanezca inalterada. Si se hacen cambios en la colección (como agregar, modificar o eliminar elementos), el enumerador queda invalidado permanentemente y su comportamiento es indefinido.
El enumerador no tiene acceso exclusivo a la colección y, por tanto, la enumeración en una colección no es intrínsicamente un procedimiento seguro para subprocesos. A fin de garantizar la seguridad de los subprocesos, se puede bloquear la colección durante toda la enumeración. Para permitir que varios subprocesos obtengan acceso de lectura y escritura a la colección, debe implementar su propia sincronización.
Se aplica a
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