C# Generics won't allow Delegate Type Constraints
C#GenericsEventsDelegatesConstraintsC# Problem Overview
Is it possible to define a class in C# such that
class GenericCollection<T> : SomeBaseCollection<T> where T : Delegate
I couldn't for the life of me accomplish this last night in .NET 3.5. I tried using
delegate, Delegate, Action<T> and Func<T, T>
It seems to me that this should be allowable in some way. I'm trying to implement my own EventQueue.
I ended up just doing this [primitive approximation mind you].
internal delegate void DWork();
class EventQueue {
private Queue<DWork> eventq;
}
But then I lose the ability to reuse the same definition for different types of functions.
Thoughts?
C# Solutions
Solution 1 - C#
A number of classes are unavailable as generic contraints - Enum being another.
For delegates, the closest you can get is ": class", perhaps using reflection to check (for example, in the static constructor) that the T is a delegate:
static GenericCollection()
{
if (!typeof(T).IsSubclassOf(typeof(Delegate)))
{
throw new InvalidOperationException(typeof(T).Name + " is not a delegate type");
}
}
Solution 2 - C#
Yes it's possible in C# 7.3, Constraints family increased to include Enum, Delegate and unmanaged types.
You can write this code without a problem:
void M<D, E, T>(D d, E e, T* t) where D : Delegate where E : Enum where T : unmanaged
{
}
From Docs: > Beginning with C# 7.3, you can use the unmanaged constraint to specify > that the type parameter must be a non-nullable unmanaged type. The > unmanaged constraint enables you to write reusable routines to work > with types that can be manipulated as blocks of memory
Useful links:
The future of C#, from Microsoft Build 2018
Solution 3 - C#
Edit: Some proposed work-arounds are proposed in these articles:
http://jacobcarpenters.blogspot.com/2006/06/c-30-and-delegate-conversion.html
http://jacobcarpenters.blogspot.com/2006_11_01_archive.html
From the C# 2.0 specification we can read (20.7, Constraints):
A class-type constraint must satisfy the following rules:
- The type must be a class type.
- The type must not be sealed.
- The type must not be one of the following types: System.Array, System.Delegate, System.Enum, or System.ValueType.
- The type must not be object. Because all types derive from object, such a constraint would have no effect if it were permitted.
- At most one constraint for a given type parameter can be a class type.
And sure enough VS2008 spits out an error:
error CS0702: Constraint cannot be special class 'System.Delegate'
For info and investigation on this issue read here.
Solution 4 - C#
If you are willing to take a compile time dependency on an IL Weaver you can do this with Fody.
Using this addin to Fody https://github.com/Fody/ExtraConstraints
Your code can look like this
public class Sample
{
public void MethodWithDelegateConstraint<[DelegateConstraint] T> ()
{
}
public void MethodWithEnumConstraint<[EnumConstraint] T>()
{
}
}
And be compiled to this
public class Sample
{
public void MethodWithDelegateConstraint<T>() where T: Delegate
{
}
public void MethodWithEnumConstraint<T>() where T: struct, Enum
{
}
}
Solution 5 - C#
Delegate already supports chaining. Doesn't this meet your needs?
public class EventQueueTests
{
public void Test1()
{
Action myAction = () => Console.WriteLine("foo");
myAction += () => Console.WriteLine("bar");
myAction();
//foo
//bar
}
public void Test2()
{
Action<int> myAction = x => Console.WriteLine("foo {0}", x);
myAction += x => Console.WriteLine("bar {0}", x);
myAction(3);
//foo 3
//bar 3
}
public void Test3()
{
Func<int, int> myFunc = x => { Console.WriteLine("foo {0}", x); return x + 2; };
myFunc += x => { Console.WriteLine("bar {0}", x); return x + 1; };
int y = myFunc(3);
Console.WriteLine(y);
//foo 3
//bar 3
//4
}
public void Test4()
{
Func<int, int> myFunc = x => { Console.WriteLine("foo {0}", x); return x + 2; };
Func<int, int> myNextFunc = x => { x = myFunc(x); Console.WriteLine("bar {0}", x); return x + 1; };
int y = myNextFunc(3);
Console.WriteLine(y);
//foo 3
//bar 5
//6
}
}
Solution 6 - C#
I came across a situation where I needed to deal with a Delegate internally but I wanted a generic constraint. Specifically, I wanted to add an event handler using reflection, but I wanted to use a generic argument for the delegate. The code below does NOT work, since "Handler" is a type variable, and the compiler won't cast Handler to Delegate:
public void AddHandler<Handler>(Control c, string eventName, Handler d) {
c.GetType().GetEvent(eventName).AddEventHandler(c, (Delegate) d);
}
However, you can pass a function that does the conversion for you. convert takes a Handler argument and returns a Delegate:
public void AddHandler<Handler>(Control c, string eventName,
Func<Delegate, Handler> convert, Handler d) {
c.GetType().GetEvent(eventName).AddEventHandler(c, convert(d));
}
Now the compiler is happy. Calling the method is easy. For example, attaching to the KeyPress event on a Windows Forms control:
AddHandler<KeyEventHandler>(someControl,
"KeyPress",
(h) => (KeyEventHandler) h,
SomeControl_KeyPress);
where SomeControl_KeyPress is the event target. The key is the converter lambda - it does no work, but it convinces the compiler you gave it a valid delegate.
(Begin 280Z28) @Justin: Why not use this?
public void AddHandler<Handler>(Control c, string eventName, Handler d) {
c.GetType().GetEvent(eventName).AddEventHandler(c, d as Delegate);
}
(End 280Z28)
Solution 7 - C#
As mentioned above, you cannot have Delegates and Enum as a generic constraint. System.Object and System.ValueType also cannot be used as a generic constraint.
The work around can be if you construct an appropriate call in you IL. It will work fine.
Here is a good example by Jon Skeet.
http://code.google.com/p/unconstrained-melody/
I have taken my references from Jon Skeet's book C# in Depth, 3rd edition.
Solution 8 - C#
According to MSDN
Compiler Error CS0702
Constraint cannot be special class 'identifier' The following types may not be used as constraints:
- System.Object
- System.Array
- System.Delegate
- System.Enum
- System.ValueType.