Type.IsAssignableFrom(Type) Metodo
Definizione
Importante
Alcune informazioni sono relative alla release non definitiva del prodotto, che potrebbe subire modifiche significative prima della release definitiva. Microsoft non riconosce alcuna garanzia, espressa o implicita, in merito alle informazioni qui fornite.
Determina se è possibile assegnare un'istanza di un tipo c
specificato a una variabile del tipo corrente.
public:
virtual bool IsAssignableFrom(Type ^ c);
public virtual bool IsAssignableFrom (Type? c);
public virtual bool IsAssignableFrom (Type c);
abstract member IsAssignableFrom : Type -> bool
override this.IsAssignableFrom : Type -> bool
Public Overridable Function IsAssignableFrom (c As Type) As Boolean
Parametri
- c
- Type
Tipo da confrontare con il tipo corrente.
Restituisce
true
se una o più delle condizioni seguenti sono vere:
c
e l'istanza corrente rappresentano lo stesso tipo.c
deriva direttamente o indirettamente dall'istanza corrente.c
deriva direttamente dall'istanza corrente se eredita dall'istanza corrente.c
deriva indirettamente dall'istanza corrente se eredita da una successione di una o più classi che ereditano dall'istanza corrente.L'istanza corrente è un'interfaccia che
c
implementa.c
è un parametro di tipo generico e l'istanza corrente rappresenta uno dei vincoli dic
.c
rappresenta un tipo di valore e l'istanza corrente rappresentaNullable<c>
(Nullable(Of c)
in Visual Basic).
false
se non viene soddisfatta nessuna di queste condizioni oppure se c
è null
.
Implementazioni
Esempio
Nell'esempio seguente viene illustrato il IsAssignableFrom
metodo usando classi definite, matrici integer e generics.
using namespace System;
using namespace System::Collections::Generic;
ref class Room
{
};
ref class Kitchen : Room
{
};
ref class Bedroom : Room
{
};
ref class Guestroom : Bedroom
{
};
ref class MasterBedroom : Bedroom
{
};
ref class Program
{
public:
static void Main()
{
// Demonstrate classes:
Console::WriteLine("Defined Classes:");
Room^ room1 = gcnew Room();
Kitchen^ kitchen1 = gcnew Kitchen();
Bedroom^ bedroom1 = gcnew Bedroom();
Guestroom^ guestroom1 = gcnew Guestroom();
MasterBedroom^ masterbedroom1 = gcnew MasterBedroom();
Type^ room1Type = room1->GetType();
Type^ kitchen1Type = kitchen1->GetType();
Type^ bedroom1Type = bedroom1->GetType();
Type^ guestroom1Type = guestroom1->GetType();
Type^ masterbedroom1Type = masterbedroom1->GetType();
Console::WriteLine("room assignable from kitchen: {0}", room1Type->IsAssignableFrom(kitchen1Type));
Console::WriteLine("bedroom assignable from guestroom: {0}", bedroom1Type->IsAssignableFrom(guestroom1Type));
Console::WriteLine("kitchen assignable from masterbedroom: {0}", kitchen1Type->IsAssignableFrom(masterbedroom1Type));
// Demonstrate arrays:
Console::WriteLine();
Console::WriteLine("Integer arrays:");
array<Int32>^ array2 = gcnew array<Int32>(2);
array<Int32>^ array10 = gcnew array<Int32>(10);
array<Int32, 2>^ array22 = gcnew array<Int32, 2>(2, 2);
array<Int32, 2>^ array24 = gcnew array<Int32, 2>(2, 4);
Type^ array2Type = array2->GetType();
Type^ array10Type = array10->GetType();
Type^ array22Type = array22->GetType();
Type^ array24Type = array24->GetType();
Console::WriteLine("Int32[2] assignable from Int32[10]: {0}", array2Type->IsAssignableFrom(array10Type));
Console::WriteLine("Int32[2] assignable from Int32[2,4]: {0}", array2Type->IsAssignableFrom(array24Type));
Console::WriteLine("Int32[2,4] assignable from Int32[2,2]: {0}", array24Type->IsAssignableFrom(array22Type));
// Demonstrate generics:
Console::WriteLine();
Console::WriteLine("Generics:");
// Note that "int?[]" is the same as "Nullable<int>[]"
//int?[] arrayNull = new int?[10];
array<Nullable^>^ arrayNull = gcnew array<Nullable^>(10);
List<Int32>^ genIntList = gcnew List<Int32>();
List<Type^>^ genTList = gcnew List<Type^>();
Type^ arrayNullType = arrayNull->GetType();
Type^ genIntListType = genIntList->GetType();
Type^ genTListType = genTList->GetType();
Console::WriteLine("Int32[10] assignable from Nullable[10]: {0}", array10Type->IsAssignableFrom(arrayNullType));
Console::WriteLine("List<Int32> assignable from List<Type^>: {0}", genIntListType->IsAssignableFrom(genTListType));
Console::WriteLine("List<Type^> assignable from List<Int32>: {0}", genTListType->IsAssignableFrom(genIntListType));
Console::ReadLine();
}
};
int main()
{
Program::Main();
}
//This code example produces the following output:
//
// Defined Classes:
// room assignable from kitchen: True
// bedroom assignable from guestroom: True
//kitchen assignable from masterbedroom: False
//
// Integer arrays:
// Int32[2] assignable from Int32[10]: True
// Int32[2] assignable from Int32[2,4]: False
// Int32[2,4] assignable from Int32[2,2]: True
//
// Generics:
// Int32[10] assignable from Nullable[10]: False
// List<Int32> assignable from List<Type^>: False
// List<Type^> assignable from List<Int32>: False
using System;
using System.Collections.Generic;
class Program
{
public static void Main()
{
// Demonstrate classes:
Console.WriteLine("Defined Classes:");
Room room1 = new Room();
Kitchen kitchen1 = new Kitchen();
Bedroom bedroom1 = new Bedroom();
Guestroom guestroom1 = new Guestroom();
MasterBedroom masterbedroom1 = new MasterBedroom();
Type room1Type = room1.GetType();
Type kitchen1Type = kitchen1.GetType();
Type bedroom1Type = bedroom1.GetType();
Type guestroom1Type = guestroom1.GetType();
Type masterbedroom1Type = masterbedroom1.GetType();
Console.WriteLine("room assignable from kitchen: {0}", room1Type.IsAssignableFrom(kitchen1Type));
Console.WriteLine("bedroom assignable from guestroom: {0}", bedroom1Type.IsAssignableFrom(guestroom1Type));
Console.WriteLine("kitchen assignable from masterbedroom: {0}", kitchen1Type.IsAssignableFrom(masterbedroom1Type));
// Demonstrate arrays:
Console.WriteLine();
Console.WriteLine("Integer arrays:");
int[] array2 = new int[2];
int[] array10 = new int[10];
int[,] array22 = new int[2, 2];
int[,] array24 = new int[2, 4];
Type array2Type = array2.GetType();
Type array10Type = array10.GetType();
Type array22Type = array22.GetType();
Type array24Type = array24.GetType();
Console.WriteLine("int[2] assignable from int[10]: {0}", array2Type.IsAssignableFrom(array10Type));
Console.WriteLine("int[2] assignable from int[2,4]: {0}", array2Type.IsAssignableFrom(array24Type));
Console.WriteLine("int[2,4] assignable from int[2,2]: {0}", array24Type.IsAssignableFrom(array22Type));
// Demonstrate generics:
Console.WriteLine();
Console.WriteLine("Generics:");
// Note that "int?[]" is the same as "Nullable<int>[]"
int?[] arrayNull = new int?[10];
List<int> genIntList = new List<int>();
List<Type> genTList = new List<Type>();
Type arrayNullType = arrayNull.GetType();
Type genIntListType = genIntList.GetType();
Type genTListType = genTList.GetType();
Console.WriteLine("int[10] assignable from int?[10]: {0}", array10Type.IsAssignableFrom(arrayNullType));
Console.WriteLine("List<int> assignable from List<Type>: {0}", genIntListType.IsAssignableFrom(genTListType));
Console.WriteLine("List<Type> assignable from List<int>: {0}", genTListType.IsAssignableFrom(genIntListType));
Console.ReadLine();
}
}
class Room
{
}
class Kitchen : Room
{
}
class Bedroom : Room
{
}
class Guestroom : Bedroom
{
}
class MasterBedroom : Bedroom
{
}
//This code example produces the following output:
//
// Defined Classes:
// room assignable from kitchen: True
// bedroom assignable from guestroom: True
// kitchen assignable from masterbedroom: False
//
// Integer arrays:
// int[2] assignable from int[10]: True
// int[2] assignable from int[2,4]: False
// int[2,4] assignable from int[2,2]: True
//
// Generics:
// int[10] assignable from int?[10]: False
// List<int> assignable from List<Type>: False
// List<Type> assignable from List<int>: False
open System
type Room() = class end
type Kitchen() = inherit Room()
type Bedroom() = inherit Room()
type Guestroom() = inherit Bedroom()
type MasterBedroom() = inherit Bedroom()
// Demonstrate classes:
printfn "Defined Classes:"
let room1 = Room()
let kitchen1 = Kitchen()
let bedroom1 = Bedroom()
let guestroom1 = Guestroom()
let masterbedroom1 = MasterBedroom()
let room1Type = room1.GetType()
let kitchen1Type = kitchen1.GetType()
let bedroom1Type = bedroom1.GetType()
let guestroom1Type = guestroom1.GetType()
let masterbedroom1Type = masterbedroom1.GetType()
printfn $"room assignable from kitchen: {room1Type.IsAssignableFrom kitchen1Type}"
printfn $"bedroom assignable from guestroom: {bedroom1Type.IsAssignableFrom guestroom1Type}"
printfn $"kitchen assignable from masterbedroom: {kitchen1Type.IsAssignableFrom masterbedroom1Type}"
// Demonstrate arrays:
printfn "\nInteger arrays:"
let array2 = Array.zeroCreate<int> 2
let array10 = Array.zeroCreate<int> 10
let array22 = Array2D.zeroCreate<int> 2 2
let array24 = Array2D.zeroCreate<int> 2 4
let array2Type = array2.GetType()
let array10Type = array10.GetType()
let array22Type = array22.GetType()
let array24Type = array24.GetType()
printfn $"int[2] assignable from int[10]: {array2Type.IsAssignableFrom array10Type}"
printfn $"int[2] assignable from int[2,4]: {array2Type.IsAssignableFrom array24Type}"
printfn $"int[2,4] assignable from int[2,2]: {array24Type.IsAssignableFrom array22Type}"
// Demonstrate generics:
printfn "\nGenerics:"
let arrayNull = Array.zeroCreate<Nullable<int>> 10
let genIntList = ResizeArray<int>()
let genTList = ResizeArray<Type>()
let arrayNullType = arrayNull.GetType()
let genIntListType = genIntList.GetType()
let genTListType = genTList.GetType()
printfn $"int[10] assignable from int?[10]: {array10Type.IsAssignableFrom arrayNullType}"
printfn $"List<int> assignable from List<Type>: {genIntListType.IsAssignableFrom genTListType}"
printfn $"List<Type> assignable from List<int>: {genTListType.IsAssignableFrom genIntListType}"
//This code example produces the following output:
//
// Defined Classes:
// room assignable from kitchen: True
// bedroom assignable from guestroom: True
// kitchen assignable from masterbedroom: False
//
// Integer arrays:
// int[2] assignable from int[10]: True
// int[2] assignable from int[2,4]: False
// int[2,4] assignable from int[2,2]: True
//
// Generics:
// int[10] assignable from int?[10]: False
// List<int> assignable from List<Type>: False
// List<Type> assignable from List<int>: False
Imports System.Collections.Generic
Module Example
Public Sub Main()
Console.WriteLine("Defined Classes:")
Dim room1 As New Room()
Dim kitchen1 As New Kitchen()
Dim bedroom1 As New Bedroom()
Dim guestroom1 As New Guestroom()
Dim masterbedroom1 As New MasterBedroom()
Dim room1Type As Type = room1.GetType()
Dim kitchen1Type As Type = kitchen1.GetType()
Dim bedroom1Type As Type = bedroom1.GetType()
Dim guestroom1Type As Type = guestroom1.GetType()
Dim masterbedroom1Type As Type = masterbedroom1.GetType()
Console.WriteLine("room assignable from kitchen: {0}", room1Type.IsAssignableFrom(kitchen1Type))
Console.WriteLine("bedroom assignable from guestroom: {0}", bedroom1Type.IsAssignableFrom(guestroom1Type))
Console.WriteLine("kitchen assignable from masterbedroom: {0}", kitchen1Type.IsAssignableFrom(masterbedroom1Type))
' Demonstrate arrays:
Console.WriteLine()
Console.WriteLine("Integer arrays:")
Dim array10(10) As Integer
Dim array2(2) As Integer
Dim array22(2, 2) As Integer
Dim array24(2, 4) As Integer
Dim array10Type As Type = array10.GetType
Dim array2Type As Type = array2.GetType
Dim array22Type As Type = array22.GetType
Dim array24Type As Type = array24.GetType
Console.WriteLine("Integer(2) assignable from Integer(10): {0}", array2Type.IsAssignableFrom(array10Type))
Console.WriteLine("Integer(2) assignable from Integer(2,4): {0}", array2Type.IsAssignableFrom(array24Type))
Console.WriteLine("Integer(2,4) assignable from Integer(2,2): {0}", array24Type.IsAssignableFrom(array22Type))
' Demonstrate generics:
Console.WriteLine()
Console.WriteLine("Generics:")
Dim arrayNull(10) As Nullable(Of Integer)
Dim genIntList As New List(Of Integer)
Dim genTList As New List(Of Type)
Dim arrayNullType As Type = arrayNull.GetType
Dim genIntListType As Type = genIntList.GetType
Dim genTListType As Type = genTList.GetType
Console.WriteLine("Integer(10) assignable from Nullable(Of Integer)(10): {0}", array10Type.IsAssignableFrom(arrayNullType))
Console.WriteLine("List(Of Integer) assignable from List(Of Type): {0}", genIntListType.IsAssignableFrom(genTListType))
Console.WriteLine("List(Of Type) assignable from List(Of Integer): {0}", genTListType.IsAssignableFrom(genIntListType))
Console.ReadLine()
End Sub
End Module
Class Room
End Class
Class Kitchen : Inherits Room
End Class
Class Bedroom : Inherits Room
End Class
Class Guestroom : Inherits Bedroom
End Class
Class MasterBedroom : Inherits Bedroom
End Class
' The example displays the following output:
' Defined Classes:
' room assignable from kitchen: True
' bedroom assignable from guestroom: True
' kitchen assignable from masterbedroom: False
'
' Integer arrays:
' Integer(2) assignable from Integer(10): True
' Integer(2) assignable from Integer(2,4): False
' Integer(2,4) assignable from Integer(2,2): True
'
' Generics:
' Integer(10) assignable from Nullable(Of Integer)(10): False
' List(Of Integer) assignable from List(Of Type): False
' List(Of Type) assignable from List(Of Integer): False
Nell'esempio seguente, l'istanza corrente è un oggetto Type che rappresenta la classe Stream.
GenericWithConstraint
è un tipo generico il cui parametro di tipo generico deve essere di tipo Stream. Passando il parametro di tipo generico al metodo indica che un'istanza IsAssignableFrom
del parametro di tipo generico può essere assegnata a un Stream oggetto.
using System;
using System.IO;
public class Example
{
public static void Main()
{
Type t = typeof(Stream);
Type genericT = typeof(GenericWithConstraint<>);
Type genericParam = genericT.GetGenericArguments()[0];
Console.WriteLine(t.IsAssignableFrom(genericParam));
// Displays True.
}
}
public class GenericWithConstraint<T> where T : Stream
{}
open System.IO
type GenericWithConstraint<'T when 'T :> Stream>() = class end
let t = typeof<Stream>
let genericT = typeof<GenericWithConstraint<_>>.GetGenericTypeDefinition()
let genericParam = genericT.GetGenericArguments()[0]
printfn $"{t.IsAssignableFrom genericParam}"
// Displays True.
Imports System.IO
Module Example
Public Sub Main()
Dim t As Type = GetType(Stream)
Dim genericT As Type = GetType(GenericWithConstraint(Of ))
Dim genericParam As Type = genericT.GetGenericArguments()(0)
Console.WriteLine(t.IsAssignableFrom(genericParam))
' Displays True.
End Sub
End Module
Public Class GenericWithConstraint(Of T As Stream)
End Class
Commenti
Il metodo può essere usato per determinare se è possibile assegnare un'istanza di a un'istanza del tipo corrente, il IsAssignableFrom metodo è più utile quando si gestiscono oggetti i cui tipi non sono noti in fase di c
progettazione e consentono l'assegnazione condizionale, come illustrato nell'esempio seguente.
using System;
using System.Collections;
public class Example
{
public static void Main()
{
Type t = typeof(IEnumerable);
Type c = typeof(Array);
IEnumerable instanceOfT;
int[] instanceOfC = { 1, 2, 3, 4 };
if (t.IsAssignableFrom(c))
instanceOfT = instanceOfC;
}
}
open System
open System.Collections
let t = typeof<IEnumerable>
let c = typeof<Array>
let mutable instanceOfT = Unchecked.defaultof<IEnumerable>
let instanceOfC = [| 1; 2; 3; 4 |]
if t.IsAssignableFrom c then
instanceOfT <- instanceOfC
Imports System.Collections
Module Example
Public Sub Main()
Dim t As Type = GetType(IEnumerable)
Dim c As Type = GetType(Array)
Dim instanceOfT As IEnumerable
Dim instanceOfC As Integer() = { 1, 2, 3, 4 }
If t.IsAssignableFrom(c) Then
instanceOfT = instanceOfC
End If
End Sub
End Module
Questo metodo garantisce quindi che una riga di codice simile alla seguente verrà eseguita in fase di esecuzione senza generare un'eccezione InvalidCastException o un'eccezione simile:
instanceOfT = instanceOfC;
instanceOfT <- instanceOfC
instanceOfT = instanceOfC
Questo metodo può essere sottoposto a override da una classe derivata.
Nota
Una definizione di tipo generica non è assegnabile da un tipo costruito chiuso. Ovvero, non è possibile assegnare il tipo MyGenericList<int>
costruito chiuso (MyGenericList(Of Integer)
in Visual Basic) a una variabile di tipo MyGenericList<T>
.
Se il parametro è di tipo TypeBuilder, il c
risultato è basato sul tipo che deve essere compilato. Nell'esempio di codice seguente viene illustrato questo uso di un tipo compilato denominato B
.
using System;
using System.Reflection;
using System.Reflection.Emit;
public class A
{}
public class Example
{
public static void Main()
{
AppDomain domain = AppDomain.CurrentDomain;
AssemblyName assemName = new AssemblyName();
assemName.Name = "TempAssembly";
// Define a dynamic assembly in the current application domain.
AssemblyBuilder assemBuilder = domain.DefineDynamicAssembly(assemName,
AssemblyBuilderAccess.Run);
// Define a dynamic module in this assembly.
ModuleBuilder moduleBuilder = assemBuilder.DefineDynamicModule("TempModule");
TypeBuilder b1 = moduleBuilder.DefineType("B", TypeAttributes.Public, typeof(A));
Console.WriteLine(typeof(A).IsAssignableFrom(b1));
}
}
// The example displays the following output:
// True
open System
open System.Reflection
open System.Reflection.Emit
type A() = class end
let domain = AppDomain.CurrentDomain
let assemName = AssemblyName()
assemName.Name <- "TempAssembly"
// Define a dynamic assembly in the current application domain.
let assemBuilder =
domain.DefineDynamicAssembly(assemName, AssemblyBuilderAccess.Run)
// Define a dynamic module in this assembly.
let moduleBuilder =
assemBuilder.DefineDynamicModule "TempModule"
let b1 = moduleBuilder.DefineType("B", TypeAttributes.Public, typeof<A>)
printfn $"{typeof<A>.IsAssignableFrom b1}"
// The example displays the following output:
// True
Imports System.Reflection
Imports System.Reflection.Emit
Public Class A
End Class
Module Example
Public Sub Main()
Dim domain As AppDomain = AppDomain.CurrentDomain
Dim assemName As New AssemblyName()
assemName.Name = "TempAssembly"
' Define a dynamic assembly in the current application domain.
Dim assemBuilder As AssemblyBuilder = domain.DefineDynamicAssembly(assemName,
AssemblyBuilderAccess.Run)
' Define a dynamic module in this assembly.
Dim moduleBuilder As ModuleBuilder = assemBuilder.DefineDynamicModule("TempModule")
Dim b1 As TypeBuilder = moduleBuilder.DefineType("B", TypeAttributes.Public, GetType(A))
Console.WriteLine(GetType(A).IsAssignableFrom(b1))
End Sub
End Module
' The example displays the following output:
' True