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I understand why ReadOnlySpan may not be used as a type argument for generic classes. ReadOnlySpan is stack only and therefore it cannot be used as field types, field members live in the heap like its container object. However return values and arguments are always stack only, so why ReadOnlySpan cannot be used as type argument for generic delegates and generic methods?

Here you have an example illustrating what I'm saying:

using System;

namespace ConsoleApp7
{
    class Program
    {
        public delegate TResult MyFunc<TResult>(ReadOnlySpan<char> arg);

        static int GetSpanLength(ReadOnlySpan<char> span)
        {
            return span.Length;
        }

        static void Main(string[] args)
        {
            var span = "hello".AsSpan();

            MyFunc<int> func1 = GetSpanLength;
            var result1 = DoSomething(func1, span);

            // The type 'ReadOnlySpan<char>' may not be used as a type argument
            Func<ReadOnlySpan<char>, int> func2 = GetSpanLength;

            //The type 'ReadOnlySpan<char>' may not be used as a type argument
            var result = DoSomething<int, ReadOnlySpan<char>>(func2, span);


        }

        static TResult DoSomething<TResult, T>(Func<T, TResult> func, T arg)
        {
            return func(arg);
        }

        static TResult DoSomething<TResult>(MyFunc<TResult> func, ReadOnlySpan<char> arg)
        {
            return func(arg);
        }

    }
}

It's very unfortunate because it forces me to have two identical versions of DoSomething method, making my code very WET.

NOTE: for projects targeting .NET Framework you need to install System.Memory Nuget Package.

12
  • 4
    What if the method does something with its T that is not allowed for ReadOnlySpan? C# generics are not like C++ templates, and the same code must apply to all possible instances (even if different code can be generated for value and reference types). ReadOnlySpan<T> is allowed, but substituting in a Span for any generic T can't be. Commented Nov 5, 2018 at 13:39
  • byte != char, you can't implicitly convert types like this. Try instead: var result = DoSomething<int, ReadOnlySpan<char>>(func2, span);
    – Igor
    Commented Nov 5, 2018 at 13:44
  • @JeroenMostert. It make sense, for example DoSomething might do: object obj = arg; which is allowed for everything but span, boxing is not allowed Commented Nov 5, 2018 at 13:46
  • @Igor, it's a typo, I'll fix it. Commented Nov 5, 2018 at 13:47
  • 1
    Have you tried lifting it with ReadOnlyMemory. The thing is, when you are working with Span, you are working with low level code, for performance reasons. Typical DRY SOLID programming doesn't apply anymore.
    – Aron
    Commented Nov 5, 2018 at 13:58

1 Answer 1

19

This post from Adam Sitnik says

Let’s consider following C# code:

Span<byte> Allocate() => new Span<byte>(new byte[256]);

void CallAndPrint<T>(Func<T> valueProvider) // no generic requirements for T
{
    object value = valueProvider.Invoke(); // boxing!

    Console.WriteLine(value.ToString());
}

void Demo()
{
    Func<Span<byte>> spanProvider = Allocate;
    CallAndPrint<Span<byte>>(spanProvider);
}

As you can see the non-boxing requirement can not be ensured today if we allow the Span to be generic type argument. One of the possible solutions could be to introduce new generic constraint: stackonly. But then all the managed compilers would have to respect it and ensure the lack of boxing and other restrictions. This is why it was decided to simply forbid using Span as a generic argument.

1
  • 1
    So we can't even use it in Tuples... C# is starting to have more gotchas than C++ and for all the wrong reasons ;(
    – Ruslan
    Commented Dec 21, 2023 at 18:07

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