Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Both are terms whose type is the intersection of all types (uninhabited). Both can be passed around in code without failing until one attempts to evaluate them. The only difference I can see is that in Java, there is a loophole which allows null to be evaluated for exactly one operation, which is reference equality comparison (==)--whereas in Haskell undefined can't be evaluated at all without throwing an exception. Is this the only difference?


What I'm really trying to get at with this question is, why was including null in Java such an apparently poor decision, and how does Haskell escape it? It seems to me that the real problem is that you can do something useful with null, namely you can check it for nullness. Because you are allowed to do this, it has become standard convention to pass around null values in code and have them indicate "no result" instead of "there is a logical error in this program". Whereas in Haskell, there's no way to check if a term evaluates to bottom without evaluating it and the program exploding, so it could never be used in such a way to indicate "no result". Instead, one is forced to use something like Maybe.

Sorry if it seems like I'm playing fast and loose with the term "evaluate"... I'm trying to draw an analogy here and having trouble phrasing it precisely. I guess that's a sign that the analogy is imprecise.

share|improve this question
Let's see: one's in Haskell, and one's in Java? – Matt Ball Oct 18 '10 at 20:13
@Matt that's just syntax, I mean semantically – Tom Crockett Oct 18 '10 at 20:14
A closer equivalent to Java's null is Haskell's Nothing. Essentially, every object reference in Java is like a Haskell Maybe value. Integer foo = new Integer(5) is like let foo = Just 5, while Integer foo = null is like let foo = Nothing. – Chuck Oct 18 '10 at 20:18
@Chuck that's one way of looking at it, but I don't think it's as direct as just saying null behaves a lot like undefined except you can do an operation to check if a term evaluates to null – Tom Crockett Oct 18 '10 at 20:26
@Chuck: It ends up being a bit of both, really. Since object references can always be null, by that analogy everything in Java is prefixed with a fromJust which produces an error if used on Nothing. So, in theory it's closer to Nothing but in practice the semantics end up looking more like undefined. – C. A. McCann Oct 18 '10 at 20:29
up vote 61 down vote accepted

What's the difference between undefined in Haskell and null in Java?

Ok, let's back up a little.

"undefined" in Haskell is an example of a "bottom" value (denoted ⊥). Such a value represents any undefined, stuck or partial state in the program.

Many different forms of bottom exist: non-terminating loops, exceptions, pattern match failures -- basically any state in the program that is undefined in some sense. The value undefined :: a is a canonical example of a value that puts the program in an undefined state.

undefined itself isn't particularly special -- its not wired in -- and you can implement Haskell's undefined using any bottom-yielding expression. E.g. this is a valid implementation of undefined:

 > undefined = undefined

Or exiting immediately (the old Gofer compiler used this definition):

 > undefined | False = undefined

The primary property of bottom is that if an expression evaluates to bottom, your entire program will evaluate to bottom: the program is in an undefined state.

Why would you want such a value? Well, in a lazy language, you can often manipulate structures or functions that store bottom values, without the program being itself bottom.

E.g. a list of infinite loops is perfectly cromulent:

 > let xs = [ let f = f in f 
            , let g n = g (n+1) in g 0
 > :t xs
 xs :: [t]
 > length xs

I just can't do much with the elements of the list:

 > head xs

This manipulation of infinite stuff is part of why Haskell's so fun and expressive. A result of laziness is Haskell pays particularly close attention to bottom values.

However, clearly, the concept of bottom applies equally well to Java, or any (non-total) language. In Java, there are many expressions that yield "bottom" values:

  • comparing a reference against null (though note, not null itself, which is well-defined);
  • division by zero;
  • out-of-bounds exceptions;
  • an infinite loop, etc.

You just don't have the ability to substitute one bottom for another very easily, and the Java compiler doesn't do a lot to reason about bottom values. However, such values are there.

In summary,

  • dereferencing a null value in Java is one specific expression that yields a bottom value in Java;
  • the undefined value in Haskell is a generic bottom-yielding expression that can be used anywhere a bottom value is required in Haskell.

That's how they're similar.


As to the question of null itself: why it is considered bad form?

  • Firstly, Java's null is essentially equivalent to adding an implicit Maybe a to every type a in Haskell.
  • Dereferencing null is equivalent to pattern matching for only the Just case: f (Just a) = ... a ...

So when the value passed in is Nothing (in Haskell), or null (in Java), your program reaches an undefined state. This is bad: your program crashes.

So, by adding null to every type, you've just made it far easier to create bottom values by accident -- the types no longer help you. Your language is no longer helping you prevent that particular kind of error, and that's bad.

Of course, other bottom values are still there: exceptions (like undefined) , or infinite loops. Adding a new possible failure mode to every function -- dereferencing null -- just makes it easier to write programs that crash.

share|improve this answer
Ah, that's a good point; it's not null itself that's the bottom value in java, it's a dereferencing of null. – Tom Crockett Oct 18 '10 at 21:26
I agree that adding null to every type is bad -- the type system does not help you catch NullPointerExceptions. But isn't allowing every value to be explicitly undefined the same problem? In a language like Haskell, the identity x * 0 = 0 no longer holds because the value x could be undefined. Even though it has type int! – ben Apr 11 '14 at 19:58
@ben The difference is that in Haskell once you have undefined you cannot change it to something non-bottom. This is why you avoid undefined any time your code works correctly. In Java, null is the default and having x = null is perfectly correct. It's just the dereference that's incorrect. But you can reassign x to some non-null value. So the "UndefinedPointerException" in Haskell can only happen after some other error, whereas in Java NullPointerExceptions are the original sources of failure. – xixixao Nov 12 '14 at 11:46
Every programming language allows bottom as a value everywhere. Other programming languages just don't give it a special name, that's all. (E.g., if you wrote a C program, you can have a function that's declared to return int, but actually loops forever and never returns anything. That's undefined!) – MathematicalOrchid Mar 12 '15 at 9:13
I've gotten some understanding from this answer, so, some degree of undefined values will be present in your program no matter the language, simply due to mathematical constraints. But I don't follow why Haskell lets things such as let x = x in x be legal expressions at compile time, other programming languages don't allow this sort of circular definition. What is the rationale for this in Haskell? – orm Jun 5 at 0:22

Your description isn't quite correct. You're saying null can't be evaluated. However since java is an eager language, this would mean that f(null) would throw an NPE no matter what the definition of f is (because method arguments are always evaluated before the method runs).

The only reason that you can pass around undefined in haskell without getting an exception is that haskell is lazy and does not evaluate arguments unless needed.

One further difference between undefined and null is that undefined is a simple value defined in the standard library. If it weren't defined in the standard library you could define it yourself (by writing myUndefined = error "My Undefined for example).

In Java null is a keyword. If there were no null keyword, you wouldn't be able to define it (doing the equivalent of the haskell definition, i.e. Object myNull = throw(new Exception()), wouldn't work because the expression would be evaluated right there).

share|improve this answer
@pelotom: It would not be just as accurate to say that. For example, you could not write if (foo != null) if null weren't evaluated by that point (and by inference foo wouldn't have been evaluated either, since foo could be null!). – Chuck Oct 18 '10 at 20:21
@pelotom: Yes, && and || are non-strict. Method-application however is strict. So if any expression is given as an argument to a method, then the expression is evaluated before the method's body. You can't say "the expression will be evaluated first, unless the expression evaluates to null" - there would be no way of knowing whether an expression evaluates to null without evaluating. – sepp2k Oct 18 '10 at 20:22
@pelotom: Except JLS Section 15.7 does not have any such loophole. – ILMTitan Oct 18 '10 at 20:36
@pelotom: No matter how hard you wish it to be true, the JLS says otherwise. If you can't accept the Java Language Specification as the specification of the java language, we have no common priors on which to base a rational discussion. – ILMTitan Oct 18 '10 at 21:04
@pelotom: Right, and that's the difference: In Haskell you're expected to be explicit about possibly returning a non-value, in Java you aren't. It's a matter of culture and syntactic convenience, not the language itself, as such. You could litter Haskell code with error if you wanted, nothing would stop you (other than, perhaps, the crushing disapproval of every other Haskell programmer on the planet). – C. A. McCann Oct 18 '10 at 21:13

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.