Unmanaged types (C# reference)
A type is an unmanaged type if it's any of the following types:
sbyte
,byte
,short
,ushort
,int
,uint
,long
,ulong
,nint
,nuint
,char
,float
,double
,decimal
, orbool
- Any enum type
- Any pointer type
- A tuple whose members are all of an unmanaged type
- Any user-defined struct type that contains fields of unmanaged types only.
You can use the unmanaged
constraint to specify that a type parameter is a non-pointer, non-nullable unmanaged type.
A constructed struct type that contains fields of unmanaged types only is also unmanaged, as the following example shows:
using System;
public struct Coords<T>
{
public T X;
public T Y;
}
public class UnmanagedTypes
{
public static void Main()
{
DisplaySize<Coords<int>>();
DisplaySize<Coords<double>>();
}
private unsafe static void DisplaySize<T>() where T : unmanaged
{
Console.WriteLine($"{typeof(T)} is unmanaged and its size is {sizeof(T)} bytes");
}
}
// Output:
// Coords`1[System.Int32] is unmanaged and its size is 8 bytes
// Coords`1[System.Double] is unmanaged and its size is 16 bytes
A generic struct may be the source of both unmanaged and managed constructed types. The preceding example defines a generic struct Coords<T>
and presents the examples of unmanaged constructed types. The example of a managed type is Coords<object>
. It's managed because it has the fields of the object
type, which is managed. If you want all constructed types to be unmanaged types, use the unmanaged
constraint in the definition of a generic struct:
public struct Coords<T> where T : unmanaged
{
public T X;
public T Y;
}
C# language specification
For more information, see the Pointer types section of the C# language specification.