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I know a string in C# can be 'nullable' by just using null.

However, the whole point of nullable types is that I get help from the compiler [edit : aka, type error : can't add apple to bananas]

And using this 'type system hack-ish' of 'nullability depends on the underlying type' breaks whatever guarantee I might have (which is no small feat as that seems to be the whole point of using a type system in the first place..)

What are the standard way to deal with this in C#, if one wants to ? Shall I just roll my own 'nullable' class ?

Edit

Let me rephrase the question :

What is the standard way, in C#, to make sure that a variable that you annotated as nullable, does not get assigned to a variable that you did not annotate as nullable.

That is : what is the standard way to have for all types, precisely what the ? keyword gives you for value type.

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8  
I don't understand your question. –  Soner Gönül Feb 19 '13 at 16:23
    
Why the f# tag? –  leppie Feb 19 '13 at 16:23
    
What specific problem are you encountering? –  Graham Feb 19 '13 at 16:27
    
The question is : how to have an explicitely nullable type, that is, one that the ompiler is aware of, so that I have a way to not assign by mistake a 'non nullable' string to a nullable string. –  nicolas Feb 19 '13 at 16:38
    
@SonerGönül do you understand nullable types ? –  nicolas Feb 19 '13 at 16:44

4 Answers 4

If you are asking about a way to ensure that the return type of a certain method is not null, there is a solution: That method has to return a value type. Every method that returns a reference type can potentially return null. There is nothing you can do about it.

So, you could create a struct like this to be able to return a value type:

public struct SurelyNotNull<T>
{
    private readonly T _value;

    public SurelyNotNull(T value)
    {
        if(value == null)
            throw new ArgumentNullException("value");
        _value = value;
    }

    public T Value
    {
        get { return _value; }
    }
}

Your method that is supposed to return a string now can return SurelyNotNull<string>.

The problem with this approach is:
It doesn't work. While the return value of the method is guaranteed to be not null, the return value of SurelyNotNull<T>.Value is not. At first glance, it looks like it is guaranteed to be not null. But it can be, because of this:
Every struct has an implicit, public, parameterless constructor, even when another constructor is defined.
The following code is valid and compiles with the struct from above:

new SurelyNotNull<string>();

Conclusion:
In C#, you are unable to achieve what you are trying to do.
You can still use this approach, you just need to understand that someone could use this type and still produce a null value. To fail fast in this scenario, it would be a good idea to add a check to the getter of Value and throw an exception if _value is null.

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You could do the null check in the get as well. This way that evil null that shouldn't be there would not be proliferated through a system and would be caught the first time it's touched. –  Timothy Shields Feb 19 '13 at 17:32
    
Interesting. With a bit of convention in the code, that'll do I guess. Although not bullet proof, this sure is an improvement over what there currently is (a mix of many things), and I can leverage the compiler to spread the non-nullity. –  nicolas Feb 19 '13 at 17:33
    
@TimothyShields: Sure. But that still would be a runtime exception and not an error the compiler can spot. And that's what this is all about. –  Daniel Hilgarth Feb 19 '13 at 17:33
    
@nicolas: The compiler still can't prove that Value won't be null, so when you are using static code checkers like ReSharper or Code Contracts you would still receive a whole bunch of "Possible usage of null" messages. –  Daniel Hilgarth Feb 19 '13 at 17:35
    
I wouldn't say it's all about compile time. Yes it's nice to have compile time checks, but it can be a big improvement at runtime to catch that accidental null early on, rather than 3 minutes later when you go to use it. It can really help with debugging. –  Timothy Shields Feb 19 '13 at 17:35

As Daniel Hilgarth pointed out, there's no bullet-proof way to achieve this. My proposal is similar to his, but with some added safety. You can decide for yourself if the benefits outweigh the cost of using a wrapper type throughout your program.

struct NonNull<T> where T : class {
    private readonly T _value;
    private readonly bool _isSafe;

    public NonNull(T value) {
        if (value == null)
            throw new ArgumentNullException();
        _value = value;
        _isSafe = true;
    }
    public T Value {
        get {
            if (_isSafe) return _value;
            throw new ArgumentNullException();
        }
    }
    public static implicit operator T(NonNull<T> nonNull) {
        return nonNull.Value;
    }
}

static class NonNull {
    public static NonNull<T> Create<T>(T value) where T : class {
        return new NonNull<T>(value);
    }
}

The wrapper type is primarily to make your intent self-documenting, so it's unlikely you would bypass it with a zero-initialized struct, but it keeps a flag to indicate it was initialized correctly anyway. In that admittedly unusual case it will throw an ArgumentNullException when accessing the value.

class Program {
    static void Main(string[] args) {
        IsEmptyString(NonNull.Create("abc")); //false
        IsEmptyString(NonNull.Create("")); //true
        IsEmptyString(null); //won't compile
        IsEmptyString(NonNull.Create<string>(null)); //ArgumentNullException 
        IsEmptyString(new NonNull<string>()); //bypassing, still ArgumentNullException
    }

    static bool IsEmptyString(NonNull<string> s) {
        return StringComparer.Ordinal.Equals(s, "");
    }
}

Now, is this better than an occasional NRE? Maybe. It can save a lot of boilerplate arg checking. You'll need to decide if it's worthwhile for your situation. Short of compiler support, like F# provides, there's no way to provide compile-time null safety, but you can (arguably) ease run-time safety.

You may want to up-vote this issue on Microsoft's customer feedback site: Add non-nullable reference types in C#

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interesting ! reassure me : you had that in the backburner for a longtime right ? –  nicolas Feb 19 '13 at 17:40
    
I haven't used this in production code, but mostly because I've made peace with this shortcoming in C# (and many other languages). F# took a huge leap forward by addressing this billion dollar mistake, even if its attempt was limited by the need for interoperability. Still, you can create something of a null-safe walled garden for most of your F# code. –  Daniel Feb 19 '13 at 17:47
    
Daniel, I hoped you had something else in mind when you posted your comment on the question. I really think that null is one of the bigger problems in current languages. About your code: Your implicit operator from T to NonNull removes a lot of the compile time type safety, because it allows IsEmptyString(null) to compile. I think it would be better to not provide it. –  Daniel Hilgarth Feb 19 '13 at 17:47
    
You're right. I was trying to make it easy to use and tripped over myself. I've removed it. –  Daniel Feb 19 '13 at 17:56
    
@DanielHilgarth: Sorry to disappoint. I had the same basic idea in mind. You might want to up-vote a related issue on User Voice (link is in my answer). –  Daniel Feb 19 '13 at 18:02

You want something like a NotNull attribute. Using these will give you compile time warnings and errors and in some cases IDE feedback about assigning NULL values to NotNull attributes.

See this question :C#: How to Implement and use a NotNull and CanBeNull attribute

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All reference types are nullable. String is a reference type.

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exactly. so I wonder how to make the compiler aware explicitely that this value is potentially nullable by construction VS potentially null because of a bug –  nicolas Feb 19 '13 at 16:36
    
@nicolas If the type that you're assigning to is a reference type, then you can assign null. If it's a struct (other than Nullable<T>, which has special compiler support) then you can't. If you have a generic method and so don't know the type, you can either use default(T) which will be null for all nullable types, or where T : class to ensure that only reference types are valid generic arguments. –  Servy Feb 19 '13 at 16:45
    
@Servy if being able to assign to null is what is at stake for you guys, I understand why you don't get the question.. The point is to isolate null, and track where it can go, not enjoy freedom of null assigning everything... –  nicolas Feb 19 '13 at 16:57
    
@nicolas So you're proposing that C# add a language feature to state that a type is nullable? If so, this is not the appropriate place for such a request, this is not where Microsoft goes to look at feature requests for C#, and so the question is off topic. –  Servy Feb 19 '13 at 16:59
2  
@nicolas: I agree, it would be very, very good, if you could declare reference types as not nullable. Currently, all reference types are nullable, so no special declaration exists to tell the compiler they are nullable, because they all are. –  Daniel Hilgarth Feb 19 '13 at 17:01

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