Usando a variação nas Interfaces para coleções genéricas (C# e Visual Basic)
Uma interface covariant permite que os seus métodos retornar mais tipos derivados além daqueles especificados da interface.Uma interface contravariant permite que os seus métodos aceitar parâmetros de menos tipos derivados além daqueles especificados na interface.
No.NET Framework 4, várias interfaces existentes se tornam covariant e contravariant.Eles incluem IEnumerable<T> e IComparable<T>.Isso lhe permite reutilizar os métodos que operam com coleções genéricas dos tipos base para coleções de tipos derivados.
Para obter uma lista de interfaces variant na.NET Framework, consulte Variação em Interfaces genéricas (C# e Visual Basic).
Convertendo coleções genéricas
O exemplo a seguir ilustra os benefícios do suporte a covariância na IEnumerable<T> interface.O PrintFullName método aceita uma coleção da IEnumerable<Person> tipo (IEnumerable(Of Person) em Visual Basic) como um parâmetro.No entanto, você pode reutilizá-la para uma coleção da IEnumerable<Employee> tipo (IEnumerable(Of Person) em Visual Basic) porque Employee herda Person.
' Simple hierarchy of classes.
Public Class Person
Public Property FirstName As String
Public Property LastName As String
End Class
Public Class Employee
Inherits Person
End Class
' The method has a parameter of the IEnumerable(Of Person) type.
Public Sub PrintFullName(ByVal persons As IEnumerable(Of Person))
For Each person As Person In persons
Console.WriteLine(
"Name: " & person.FirstName & " " & person.LastName)
Next
End Sub
Sub Main()
Dim employees As IEnumerable(Of Employee) = New List(Of Employee)
' You can pass IEnumerable(Of Employee),
' although the method expects IEnumerable(Of Person).
PrintFullName(employees)
End Sub
// Simple hierarchy of classes.
public class Person
{
public string FirstName { get; set; }
public string LastName { get; set; }
}
public class Employee : Person { }
class Program
{
// The method has a parameter of the IEnumerable<Person> type.
public static void PrintFullName(IEnumerable<Person> persons)
{
foreach (Person person in persons)
{
Console.WriteLine("Name: {0} {1}",
person.FirstName, person.LastName);
}
}
public static void Test()
{
IEnumerable<Employee> employees = new List<Employee>();
// You can pass IEnumerable<Employee>,
// although the method expects IEnumerable<Person>.
PrintFullName(employees);
}
}
Comparando coleções genéricas
O exemplo a seguir ilustra os benefícios do suporte/contravariância na IComparer<T> interface.O PersonComparer classe implementa o IComparer<Person> interface (IComparer(Of Person) em Visual Basic).No entanto, você pode reutilizar essa classe para comparar uma seqüência de objetos da Employee tipo porque Employee herda Person.
' Simple hierarhcy of classes.
Public Class Person
Public Property FirstName As String
Public Property LastName As String
End Class
Public Class Employee
Inherits Person
End Class
' The custom comparer for the Person type
' with standard implementations of Equals()
' and GetHashCode() methods.
Class PersonComparer
Implements IEqualityComparer(Of Person)
Public Function Equals1(
ByVal x As Person,
ByVal y As Person) As Boolean _
Implements IEqualityComparer(Of Person).Equals
If x Is y Then Return True
If x Is Nothing OrElse y Is Nothing Then Return False
Return (x.FirstName = y.FirstName) AndAlso
(x.LastName = y.LastName)
End Function
Public Function GetHashCode1(
ByVal person As Person) As Integer _
Implements IEqualityComparer(Of Person).GetHashCode
If person Is Nothing Then Return 0
Dim hashFirstName =
If(person.FirstName Is Nothing,
0, person.FirstName.GetHashCode())
Dim hashLastName = person.LastName.GetHashCode()
Return hashFirstName Xor hashLastName
End Function
End Class
Sub Main()
Dim employees = New List(Of Employee) From {
New Employee With {.FirstName = "Michael", .LastName = "Alexander"},
New Employee With {.FirstName = "Jeff", .LastName = "Price"}
}
' You can pass PersonComparer,
' which implements IEqualityComparer(Of Person),
' although the method expects IEqualityComparer(Of Employee)
Dim noduplicates As IEnumerable(Of Employee) = employees.Distinct(New PersonComparer())
For Each employee In noduplicates
Console.WriteLine(employee.FirstName & " " & employee.LastName)
Next
End Sub
// Simple hierarchy of classes.
public class Person
{
public string FirstName { get; set; }
public string LastName { get; set; }
}
public class Employee : Person { }
// The custom comparer for the Person type
// with standard implementations of Equals()
// and GetHashCode() methods.
class PersonComparer : IEqualityComparer<Person>
{
public bool Equals(Person x, Person y)
{
if (Object.ReferenceEquals(x, y)) return true;
if (Object.ReferenceEquals(x, null) ||
Object.ReferenceEquals(y, null))
return false;
return x.FirstName == y.FirstName && x.LastName == y.LastName;
}
public int GetHashCode(Person person)
{
if (Object.ReferenceEquals(person, null)) return 0;
int hashFirstName = person.FirstName == null
? 0 : person.FirstName.GetHashCode();
int hashLastName = person.LastName.GetHashCode();
return hashFirstName ^ hashLastName;
}
}
class Program
{
public static void Test()
{
List<Employee> employees = new List<Employee> {
new Employee() {FirstName = "Michael", LastName = "Alexander"},
new Employee() {FirstName = "Jeff", LastName = "Price"}
};
// You can pass PersonComparer,
// which implements IEqualityComparer<Person>,
// although the method expects IEqualityComparer<Employee>.
IEnumerable<Employee> noduplicates =
employees.Distinct<Employee>(new PersonComparer());
foreach (var employee in noduplicates)
Console.WriteLine(employee.FirstName + " " + employee.LastName);
}
}