Type.GenericParameterPosition Propriedade
Definição
Importante
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Obtém a posição do parâmetro de tipo, na lista de parâmetros de tipo, do tipo genérico ou do método que declarou o parâmetro, quando o objeto Type representa um parâmetro de tipo de um tipo genérico ou método genérico.
public:
abstract property int GenericParameterPosition { int get(); };public:
virtual property int GenericParameterPosition { int get(); };public abstract int GenericParameterPosition { get; }public virtual int GenericParameterPosition { get; }member this.GenericParameterPosition : intPublic MustOverride ReadOnly Property GenericParameterPosition As IntegerPublic Overridable ReadOnly Property GenericParameterPosition As IntegerValor da propriedade
A posição de um parâmetro de tipo na lista de parâmetros de tipo do tipo genérico ou método que define o parâmetro . Os números de posição começam em 0.
Exceções
O tipo atual não representa um parâmetro de tipo. Ou seja, IsGenericParameter retorna false.
Exemplos
O exemplo a seguir define uma classe genérica com dois parâmetros de tipo e define uma segunda classe genérica derivada da primeira classe. A classe base da classe derivada tem dois argumentos de tipo: o primeiro é Int32e o segundo é um parâmetro de tipo do tipo derivado. O exemplo exibe informações sobre essas classes genéricas, incluindo as posições relatadas pela GenericParameterPosition propriedade .
using namespace System;
using namespace System::Reflection;
using namespace System::Collections::Generic;
// Define a base class with two type parameters.
generic< class T,class U >
public ref class Base {};
// Define a derived class. The derived class inherits from a constructed
// class that meets the following criteria:
// (1) Its generic type definition is Base<T, U>.
// (2) It specifies int for the first type parameter.
// (3) For the second type parameter, it uses the same type that is used
// for the type parameter of the derived class.
// Thus, the derived class is a generic type with one type parameter, but
// its base class is an open constructed type with one type argument and
// one type parameter.
generic<class V>
public ref class Derived : Base<int,V> {};
public ref class Test
{
public:
static void Main()
{
Console::WriteLine(
L"\r\n--- Display a generic type and the open constructed");
Console::WriteLine(L" type from which it is derived.");
// Create a Type object representing the generic type definition
// for the Derived type. Note the absence of type arguments.
//
Type^ derivedType = Derived::typeid;
DisplayGenericTypeInfo(derivedType);
// Display its open constructed base type.
DisplayGenericTypeInfo(derivedType->BaseType);
}
private:
static void DisplayGenericTypeInfo(Type^ t)
{
Console::WriteLine(L"\r\n{0}", t);
Console::WriteLine(L"\tIs this a generic type definition? {0}",
t->IsGenericTypeDefinition);
Console::WriteLine(L"\tIs it a generic type? {0}", t->IsGenericType);
Console::WriteLine(L"\tDoes it have unassigned generic parameters? {0}",
t->ContainsGenericParameters);
if (t->IsGenericType)
{
// If this is a generic type, display the type arguments.
//
array<Type^>^typeArguments = t->GetGenericArguments();
Console::WriteLine(L"\tList type arguments ({0}):",
typeArguments->Length);
System::Collections::IEnumerator^ myEnum =
typeArguments->GetEnumerator();
while (myEnum->MoveNext())
{
Type^ tParam = safe_cast<Type^>(myEnum->Current);
// IsGenericParameter is true only for generic type
// parameters.
//
if (tParam->IsGenericParameter)
{
Console::WriteLine(
L"\t\t{0} (unassigned - parameter position {1})",
tParam, tParam->GenericParameterPosition);
}
else
{
Console::WriteLine(L"\t\t{0}", tParam);
}
}
}
}
};
int main()
{
Test::Main();
}
/* This example produces the following output:
--- Display a generic type and the open constructed
type from which it is derived.
Derived`1[V]
Is this a generic type definition? True
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (1):
V (unassigned - parameter position 0)
Base`2[System.Int32,V]
Is this a generic type definition? False
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (2):
System.Int32
V (unassigned - parameter position 0)
*/
using System;
using System.Reflection;
using System.Collections.Generic;
// Define a base class with two type parameters.
public class Base<T, U> { }
// Define a derived class. The derived class inherits from a constructed
// class that meets the following criteria:
// (1) Its generic type definition is Base<T, U>.
// (2) It specifies int for the first type parameter.
// (3) For the second type parameter, it uses the same type that is used
// for the type parameter of the derived class.
// Thus, the derived class is a generic type with one type parameter, but
// its base class is an open constructed type with one type argument and
// one type parameter.
public class Derived<V> : Base<int, V> { }
public class Test
{
public static void Main()
{
Console.WriteLine(
"\r\n--- Display a generic type and the open constructed");
Console.WriteLine(" type from which it is derived.");
// Create a Type object representing the generic type definition
// for the Derived type, by omitting the type argument. (For
// types with multiple type parameters, supply the commas but
// omit the type arguments.)
//
Type derivedType = typeof(Derived<>);
DisplayGenericTypeInfo(derivedType);
// Display its open constructed base type.
DisplayGenericTypeInfo(derivedType.BaseType);
}
private static void DisplayGenericTypeInfo(Type t)
{
Console.WriteLine("\r\n{0}", t);
Console.WriteLine("\tIs this a generic type definition? {0}",
t.IsGenericTypeDefinition);
Console.WriteLine("\tIs it a generic type? {0}",
t.IsGenericType);
Console.WriteLine("\tDoes it have unassigned generic parameters? {0}",
t.ContainsGenericParameters);
if (t.IsGenericType)
{
// If this is a generic type, display the type arguments.
//
Type[] typeArguments = t.GetGenericArguments();
Console.WriteLine("\tList type arguments ({0}):",
typeArguments.Length);
foreach (Type tParam in typeArguments)
{
// IsGenericParameter is true only for generic type
// parameters.
//
if (tParam.IsGenericParameter)
{
Console.WriteLine(
"\t\t{0} (unassigned - parameter position {1})",
tParam,
tParam.GenericParameterPosition);
}
else
{
Console.WriteLine("\t\t{0}", tParam);
}
}
}
}
}
/* This example produces the following output:
--- Display a generic type and the open constructed
type from which it is derived.
Derived`1[V]
Is this a generic type definition? True
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (1):
V (unassigned - parameter position 0)
Base`2[System.Int32,V]
Is this a generic type definition? False
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (2):
System.Int32
V (unassigned - parameter position 0)
*/
open System
open System.Reflection
open System.Collections.Generic
// Define a base class with two type parameters.
type Base<'T, 'U>() = class end
// Define a derived class. The derived class inherits from a constructed
// class that meets the following criteria:
// (1) Its generic type definition is Base<T, U>.
// (2) It specifies int for the first type parameter.
// (3) For the second type parameter, it uses the same type that is used
// for the type parameter of the derived class.
// Thus, the derived class is a generic type with one type parameter, but
// its base class is an open constructed type with one type argument and
// one type parameter.
type Derived<'V>() = inherit Base<int, 'V>()
let displayGenericTypeInfo (t: Type) =
printfn $"\n{t}"
printfn $"\tIs this a generic type definition? {t.IsGenericTypeDefinition}"
printfn $"\tIs it a generic type? {t.IsGenericType}"
printfn $"\tDoes it have unassigned generic parameters? {t.ContainsGenericParameters}"
if t.IsGenericType then
// If this is a generic type, display the type arguments.
let typeArguments = t.GetGenericArguments()
printfn $"\tList type arguments ({typeArguments.Length}):"
for tParam in typeArguments do
// IsGenericParameter is true only for generic type
// parameters.
if tParam.IsGenericParameter then
printfn $"\t\t{tParam} (unassigned - parameter position {tParam.GenericParameterPosition})"
else
printfn $"\t\t{tParam}"
printfn $"\r\n--- Display a generic type and the open constructed"
printfn $" type from which it is derived."
// Create a Type object representing the generic type definition
// for the Derived type, by omitting the type argument. (For
// types with multiple type parameters, supply the commas but
// omit the type arguments.)
//
let derivedType = (typeof<Derived<_>>).GetGenericTypeDefinition()
displayGenericTypeInfo derivedType
// Display its open constructed base type.
displayGenericTypeInfo derivedType.BaseType
(* This example produces the following output:
--- Display a generic type and the open constructed
type from which it is derived.
Derived`1[V]
Is this a generic type definition? True
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (1):
V (unassigned - parameter position 0)
Base`2[System.Int32,V]
Is this a generic type definition? False
Is it a generic type? True
Does it have unassigned generic parameters? True
List type arguments (2):
System.Int32
V (unassigned - parameter position 0)
*)
Imports System.Reflection
Imports System.Collections.Generic
' Define a base class with two type parameters.
Public Class Base(Of T, U)
End Class
' Define a derived class. The derived class inherits from a constructed
' class that meets the following criteria:
' (1) Its generic type definition is Base<T, U>.
' (2) It uses int for the first type parameter.
' (3) For the second type parameter, it uses the same type that is used
' for the type parameter of the derived class.
' Thus, the derived class is a generic type with one type parameter, but
' its base class is an open constructed type with one assigned type
' parameter and one unassigned type parameter.
Public Class Derived(Of V)
Inherits Base(Of Integer, V)
End Class
Public Class Test
Public Shared Sub Main()
Console.WriteLine(vbCrLf _
& "--- Display a generic type and the open constructed")
Console.WriteLine(" type from which it is derived.")
' Create a Type object representing the generic type definition
' for the Derived type, by omitting the type argument. (For
' types with multiple type parameters, supply the commas but
' omit the type arguments.)
'
Dim derivedType As Type = GetType(Derived(Of ))
DisplayGenericTypeInfo(derivedType)
' Display its open constructed base type.
DisplayGenericTypeInfo(derivedType.BaseType)
End Sub
Private Shared Sub DisplayGenericTypeInfo(ByVal t As Type)
Console.WriteLine(vbCrLf & "{0}", t)
Console.WriteLine(vbTab & "Is this a generic type definition? " _
& t.IsGenericTypeDefinition)
Console.WriteLine(vbTab & "Is it a generic type? " _
& t.IsGenericType)
Console.WriteLine(vbTab _
& "Does it have unassigned generic parameters? " _
& t.ContainsGenericParameters)
If t.IsGenericType Then
' If this is a generic type, display the type arguments.
'
Dim typeArguments As Type() = t.GetGenericArguments()
Console.WriteLine(vbTab & "List type arguments (" _
& typeArguments.Length & "):")
For Each tParam As Type In typeArguments
' IsGenericParameter is true only for generic type
' parameters.
'
If tParam.IsGenericParameter Then
Console.WriteLine(vbTab & vbTab & tParam.ToString() _
& " (unassigned - parameter position " _
& tParam.GenericParameterPosition & ")")
Else
Console.WriteLine(vbTab & vbTab & tParam.ToString())
End If
Next tParam
End If
End Sub
End Class
' This example produces the following output:
'
'--- Display a generic type and the open constructed
' type from which it is derived.
'
'Derived`1[V]
' Is this a generic type definition? True
' Is it a generic type? True
' Does it have unassigned generic parameters? True
' List type arguments (1):
' V (unassigned - parameter position 0)
'
'Base`2[System.Int32,V]
' Is this a generic type definition? False
' Is it a generic type? True
' Does it have unassigned generic parameters? True
' List type parameters (2):
' System.Int32
' V (unassigned - parameter position 0)
'
Comentários
A GenericParameterPosition propriedade retorna a posição de um parâmetro de tipo na lista de parâmetros da definição de tipo genérico ou da definição de método genérico em que o parâmetro de tipo foi originalmente definido. As DeclaringType propriedades e DeclaringMethod identificam o tipo genérico ou a definição de método:
Se a DeclaringMethod propriedade retornar um MethodInfo, que MethodInfo representa uma definição de método genérico, e o objeto atual Type representará um parâmetro de tipo dessa definição de método genérico.
Se a DeclaringMethod propriedade retornar
null, a DeclaringType propriedade sempre retornará um Type objeto que representa uma definição de tipo genérico e o objeto atual Type representará um parâmetro de tipo dessa definição de tipo genérico.
Para fornecer o contexto correto para o valor da GenericParameterPosition propriedade, é necessário identificar o tipo genérico ou o método ao qual pertence um parâmetro de tipo. Por exemplo, considere o valor retornado do método GetSomething genérico no seguinte código:
generic<typename T, typename U> public ref class B { };
generic<typename V> public ref class A
{
public:
generic<typename X> B<V, X>^ GetSomething()
{
return gcnew B<V, X>();
}
};
public class B<T, U> { }
public class A<V>
{
public B<V, X> GetSomething<X>()
{
return new B<V, X>();
}
}
type B<'T, 'U>() = class end
type A<'V>() =
member _.GetSomething<'X>() =
B<'V, 'X>()
Public Class B(Of T, U)
End Class
Public Class A(Of V)
Public Function GetSomething(Of X)() As B(Of V, X)
Return New B(Of V, X)()
End Function
End Class
O tipo retornado por GetSomething depende dos argumentos de tipo fornecidos à classe A e a GetSomething si mesmo. Você pode obter um MethodInfo para e, a GetSomethingpartir disso, você pode obter o tipo de retorno. Quando você examina os parâmetros de tipo do tipo de retorno, GenericParameterPosition retorna 0 para ambos. A posição de V é 0 porque V é o primeiro parâmetro de tipo na lista de parâmetros de tipo para a classe A. A posição de X é 0 porque X é o primeiro parâmetro de tipo na lista de parâmetros de tipo para GetSomething.
Observação
Chamar a GenericParameterPosition propriedade causará uma exceção se o atual Type não representar um parâmetro de tipo. Ao examinar os argumentos de tipo de um tipo construído aberto, use a IsGenericParameter propriedade para informar quais são parâmetros de tipo e quais são tipos. A IsGenericParameter propriedade retorna true para um parâmetro de tipo; você pode usar o GenericParameterPosition método para obter sua posição e usar as DeclaringMethod propriedades e DeclaringType para determinar o método genérico ou a definição de tipo que o define.
