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Out of interest, I want to read about languages that are designed like this. Haskell is one, right?

I am talking about languages that does this, but also has compiler support to catch issues like if it's nullable, then you have to have appropriate cases, handling to compile, etc.

Also is it only a concept that's in functional programming? Does it also exist in some OO languages?

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Does C++ count? :) –  KennyTM Mar 7 '11 at 21:20
    
C++ has that? You tell me :O –  Joan Venge Mar 7 '11 at 21:24
    
C++? wrong. Of course you can have null pointers in C++ :D –  eznme Mar 7 '11 at 21:27
    
@eznme: But you cannot (in a well-defined C++ program) have a null reference. A valid reference always refers to an object. –  Jon Purdy Mar 8 '11 at 0:46
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@Jon Purdy: that's just a confusion of terminology. What is called references in most languages is basically what is called a pointer in C++. C++ references are kind of different. –  user102008 Mar 8 '11 at 7:55

6 Answers 6

Just to answer the first part of your question, you're right that Haskell doesn't have a special 'null' value that can be of any type.

If you want this behaviour, you have to change the return type of your function. Typically, you use the Maybe type for this, so for example:

safeDiv :: Float -> Float -> Maybe Float

safeDiv a b
    | b == 0    = Nothing
    | otherwise = Just (a / b)

This says that safeDiv takes two Floats and returns a type Maybe Float. In the body of the function, I can then return Nothing if b is zero, otherwise I return Just (a / b).

The key point is that your type signature explicitly marks whether your function can return Nothing or not, and any caller will be forced to handle the two possible cases in some way.

Haskell does, however, have Exceptions which can be thrown and caught. For pure functions it is preferred to return a Maybe value instead of just throwing an error, but even some Prelude (base library) functions are unsafe. For example, head, which returns the first element of a list, throws an error if the list is empty, instead of returning a value wrapped up in Maybe.

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Well, there's an easy way to think about this. It's slightly wrong from an implementation point of view I think, but it helps beginners if I say: all functions only take one argument and return one value and functions can return other functions. Therefore Float -> Float -> Maybe Float is Float -> (Float -> Maybe Float), ie safeDiv takes a Float, and returns another function that takes a Float and returns a Maybe Float. –  chrisdb Mar 7 '11 at 21:42
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This allows you to derive functions from other functions by providing some (but not all) of the arguments. For example: x = (2*) is a valid way to define a function that doubles its argument. We give * one of its arguments but not the other one. –  chrisdb Mar 7 '11 at 21:42
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@Joan: The language basically works that way. Googling "currying" or "partial function application" might help you. Currying a function is turning a function with multiple arguments into a function that takes a single argument and (maybe) returns another function. Functions are curried by default in Haskell. Partial function application is supplying only some of the arguments to a function and getting back a function that takes fewer arguments. Since currying is the default in Haskell, partially applied functions are very common. –  chrisdb Mar 7 '11 at 23:20
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@Joan: I'm not an expert, I've just used it enough to understand most of the most important concepts. The thing about Haskell is that it's as deep as you want it to be. Because it makes creating and passing around functions easy and has a fairly complex type system, there are some very complicated libraries and abstractions out there. But you don't need to understand all of them to do useful things with Haskell. –  chrisdb Mar 7 '11 at 23:28
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Well, there are a few implementations. GHC, the Glasgow Haskell Compiler, produces reasonably fast programs. I'm not sure about games, because I don't know of anyone who's tried to develop a complex game in Haskell. –  chrisdb Mar 8 '11 at 8:19

Any of the ML-derived languages (of which Haskell is one) work like this, including SML and F# (although null can leak into F# from .NET interop). Scala also generally shuns null but the fact that it sits on top of the JVM makes it less strict about it than some other languages.

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You will find that Nullable is a matter of definition.

Most languages can be seen to have nullable pointers but not nullable values. Also, many languages provide a special null/nil-object with which variables are initialized automatically; would you count this as nullable?

On the one hand it is a special value distinct from all the values the variable normally holds (e.g. numbers), and is from that perspective the same as if you work with only pointers to numbers (nullable).

On the other hand this null/nil-object is a real object with a real class (in class-based-OO languages) and will understand many messages you send to it like asString(), so since it is a real object it is not a "null" in the strictest sense right?

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Yes but I was asking in the "true" sense of the term. Not sure that's how to describe it but basically, avoiding null checks and getting more compiler support and checks, etc. –  Joan Venge Mar 7 '11 at 22:26

Two languages that come to mind which support both the object-oriented paradigm and non-nullable types are (arguably) C++ and (definitely) Spec#.

Spec# is a formal language for API contracts (influenced by JML, AsmL, and Eiffel), which extends C# with constructs for non-null types, preconditions, postconditions, and object invariants.
— from the Spec# homepage on Microsoft Research

The latter is probably not in widespread use (if it's used at all). There you get a non-nullable type by suffixing a type with ! (e.g. object! or string![]!).

Concerning C++, I'm sure someone clever will find plenty of arguments why C++ should not be mentioned here; being the complex, delicate language that it is, I'm sure that such reasons exist. My argument for mentioning C++ anyway is that apart from pointers (*) (which can very well be 0), C++ also has references (&), which have to be initialized to something sensible. The main problem with references is, AFAIK, that they cannot be used for everything. There's probably certain situations, e.g. with memory management or smart pointers, where you cannot get completely rid of pointers.

Finally, you could always try to build your own non-nullable wrapper types, e.g. in C#. Probably like many others, Jon Skeet has done so and blogged about it. It's a workable solution, but such a NotNull<T> type can feel a bit bulky since it's not truly integrated into the language, as with Spec#.

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Thanks but from what I heard if you say try to use Spec# assemblies in C#, you would be able to set their types to null, right? Like the runtime itself isn't able to enforce this nor does it have the ability to truly have something as non-nullable. From what I read, it still stores them as null, because the types are still class. –  Joan Venge Mar 7 '11 at 22:23
    
Also that NotNull, even though tries to do this behavior, will still not be able to save itself from null, right? –  Joan Venge Mar 7 '11 at 22:24
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@Joan, 1. you are correct that Spec#'s non-nullable types are not directly supported by the CLI, but are a "feature" added on top of it by the language itself. Which means that the benefits won't be huge in real-world scenarios because you would likely make heavy use of the Base Class Library, which uses nullable (ie. reference) types everywhere. Still... the language mentioned supports non-nullable references, which is what you asked for. :) 2. Declaring such a NotNull<T> type as a struct (value type) would help somewhat, as passing null in its place would then not be allowed. –  stakx Mar 7 '11 at 23:24
    
Thanks stakx, that makes sense. –  Joan Venge Mar 8 '11 at 0:54
    
"which have to be initialized to something sensible" But that's the difficulty. How do you make sure that something is sensible? –  user102008 Mar 8 '11 at 8:07

C++ has been mentioned. If I were designing a C++ library from scratch (something like Qt, say), I would in fact use pointers versus references at various points in the API to indicate whether the given parameter or return type can be null. Then seeing "*" and "->" wouldn't primarily be a visual indicator that you're dealing with a 'non-local' object -- it would be a reminder that you're dealing with something which might be null, and therefore you had better check whether it is.

Haskell's Maybe type is very simple but it's one of the best parts of the language. Doing things this way in C++ doesn't get you everything, but it gets you something and I think it would be quite helpful. (To briefly recap: if a function parameter is not allowed to be null, checking whether it is at runtime is a distant second-best option: if someone broke the rules and gave you a null, even if you check for it there's still nothing much reasonable you can do in response other than crashing the program with an assert. It's much, much better for the compiler to enforce that it can't be null, and disallow callers from passing one in in the first place.)

(Obviously, if you have a null pointer, you can still blindly dereference it, pass it in, and then get a crash anyways. But at least the fact that you're being forced to dereference (as opposed to passing in the pointer unchanged) is a strong cue that you should be checking for nullness. So it's better than nothing.)

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It's true that Haskell doesn't have a special null value for every type, but if you work with actual pointers, which the FFI allows you to do, you can create null pointers.

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