Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
type 'a list_t =
    | Empty
    | Node of 'a * 'a list_t lazy_t

type 'a node_t =
    | Empty
    | Node of 'a * 'a zlist_t
and 'a zlist_t = 'a node_t lazy_t

I don't see many differences.

The only thing I can identify is that in the 2nd type, even the Empty is put to a lazy thunk, am I right? If I am right, then what is the purpose of put Empty to thunk?

Any other differences?


I am asking the differences between the two types of list: list_t and zlist_t.

share|improve this question
The only difference is that in one case you defined two types and the other you just have just defined one type. –  newacct Nov 16 '13 at 0:40

3 Answers 3

up vote 3 down vote accepted

The problem with the first one, I think, is that Node (foo, lazy Empty) cannot be wrapped in a Lazy.t to make the evaluation of foo itself lazy.

Let me explain a little bit more with two examples :

# type 'a list_t = Empty | Node of 'a * 'a list_t lazy_t;;
type 'a list_t = Empty | Node of 'a * 'a list_t lazy_t
# Node ((print_endline "hello"; 1), lazy Empty);;
- : int list_t = Node (1, lazy Empty)

Here, the evaluation of the 'a element has been performed before I could build the list. In other words, the first type definition you wrote is a definition for lists whose head element has always been evaluated. Conversely, the second definition does not force you to evaluate the head of the list in order to build it.

# type 'a node_t = Empty | Node of 'a * 'a zlist_t and 'a zlist_t = 'a node_t lazy_t;;
type 'a node_t = Empty | Node of 'a * 'a zlist_t
and 'a zlist_t = 'a node_t lazy_t
# let x = ((lazy (Node ((print_endline "hello"; 1), lazy Empty))): int zlist_t);;
val x : int zlist_t = <lazy>

The evaluation of the element of type 'a contained in the head of the list takes place when you first force the list, for instance as follows:

# match Lazy.force x with Empty -> () | Node _ -> ();;
- : unit = ()
share|improve this answer
What do you mean? could you please explain it more or with an example? –  Jackson Tale Nov 15 '13 at 17:03
Sure. I've updated my comment. –  Jonathan Protzenko Nov 15 '13 at 20:53
"he first type definition you wrote is a definition for lists whose head element has always been evaluated." Same with the second one. "let x = ((lazy (Node ((print_endline "hello"; 1), lazy Empty))): int zlist_t);;" You are explicitly wrapping the structuring in a lazy. The same thing with the first one: let x = ((lazy (Node ((print_endline "hello"; 1), lazy Empty))): int list_t lazy_t);; –  newacct Nov 16 '13 at 0:38
@newacct I think you're missing the point. I'll comment on Martin's reply. –  gasche Nov 16 '13 at 8:20
@gasche: The question only makes sense if he's asking about the equivalence between list_t and node_t. Obviously, since the second way defines two type names, there's one named type (the type alias zlist_t) that doesn't have an explicit name in the first way. That seems to be all you're saying. If having that second name is what he cared about, he can always, at any time, just define another type type 'a zlist_t = 'a list_t lazy_t and get the exact same portfolio of type names. It seems silly if that's what he's asking. –  newacct Nov 16 '13 at 10:47

There is absolutely no difference between 'a node_t and 'a list_t, since you can substitute the definition of the alias 'a zlist_t into the definition of 'a node_t and what you get is exactly analogous to 'a list_t.

You said you are asking about the difference between 'a list_t and 'a zlist_t. Well, 'a zlist_t is just a type alias for 'a node_t lazy_t. As we noted above that node_t and list_t are equivalent, that means 'a zlist_t, i.e. 'a node_t lazy_t, is equivalent to 'a list_t lazy_t. So your question is basically asking what is the difference between 'a list_t and 'a list_t lazy_t.

Well, from looking at it, the difference is simple -- one is the other wrapped in a lazy_t, which means it's the lazy version of the other. If you have a value of type 'a list_t, it means that the first cons cell is already evaluated, since it's value must either be Empty or Node, without evaluating lazy expressions. Further, if it is Node, the first item must also be evaluated, since it lives inside the Node without a lazy_t. On the other hand, if you have a value of type 'a list_t lazy_t, it means the first cons cell may not be evaluated; you don't get an 'a list_t until you force it.

share|improve this answer
Yes, you are right. Sorry for the confusion of my question. –  Jackson Tale Nov 16 '13 at 22:01

There's no difference. 'a zlist_t is an alias for 'a node_t lazy_t. After performing the substitution, we end up with:

type 'a node_t =
    | Empty
    | Node of 'a * 'a node_t lazy_t

What you could do is:

type 'a node_t =
    | Empty
    | Node of ('a * 'a node_t) lazy_t

Perhaps better written as:

type 'a node =
    | Empty
    | Node of 'a zlist

and 'a zlist = ('a * 'a node) lazy_t

Note that since OCaml 3.08 or so we can force the evaluation of lazy expressions during pattern-matching like this:

match l with
| Empty -> ...
| Node (lazy (..., ...)) ->

Don't use this definition. It's better to have the list completely lazy like in your definitions. Independently you can always make the elements of the list lazy if you wish.

share|improve this answer
Yes, there is a difference. The naming is not innocent. With the first definition, users are expected to use 'a list_t as the primary notion of what a lazy list is. With the second, they are expected to use 'a zlist_t as their main data structure. The second is effectively strictly more lazy than the first, whose head is forced. You and @newacct pointed out that you can regain full laziness by wrapping the head-forced list into one more thunking level; that's true, but this is not the common case this type has been designed for. –  gasche Nov 16 '13 at 8:23
@gasche: zlist_t is a type alias. From the language point of view, writing 'a zlist_t is exactly identical to writing 'a node_t lazy_t. You call 'a list_t lazy_t "wrapping the head-forced list into one more thunking level", but whatever that means, that's exactly what 'a zlist_t (i.e. 'a node_t lazy_t) is. There is no difference, except with having defined an extra type alias, you can write it with less characters. There is no reason to believe that "users are expected" to use one and not the other. –  newacct Nov 16 '13 at 10:56
I believe we'll have to agree to disagree on that. I think you're wrong, there is a difference, and the expected answer (which Jonathan helpfully gave) is that there is a (surprisingly subtle for most newcomers to lazyness) difference between those two ways to define lazy lists, which is actually important in practical applications. In one case the library author will expose map : ('a -> 'b) -> 'a list_t -> 'b list_t, in the other map : ('a -> 'b) -> 'a zlist_t -> 'a zlist_t (no, not the node_t one), and this is not the same thing. –  gasche Nov 16 '13 at 12:42

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.