Why does cons work in this context with lazy-seq, but conj doesn\'t?
This works:
(defn compound-interest [p i]
(cons p (lazy-seq (compound-interest (* p
(conj collection item)
adds item
to collection
. To do that, it needs to realize collection
. (I'll explain why below.) So the recursive call happens immediately, rather than being deferred.
(cons item collection)
creates a sequence which begins with item
, followed by everything in collection
. Significantly, it doesn't need to realize collection
. So the recursive call will be deferred (because of using lazy-seq
) until somebody tries to get the tail of the resulting sequence.
I'll explain how this works internally:
cons
actually returns a clojure.lang.Cons
object, which is what lazy sequences are made of. conj
returns the same type of collection which you pass it (whether that is a list, vector, or whatever else). conj
does this using a polymorphic Java method call on the collection itself. (See line 524 of clojure/src/jvm/clojure/lang/RT.java.)
What happens when that Java method call happens on the clojure.lang.LazySeq
object which is returned by lazy-seq
? (How Cons
and LazySeq
objects work together to form lazy sequences will become clearer below.) Look at line 98 of clojure/src/jvm/clojure/lang/LazySeq.java. Notice it calls a method called seq
. This is what realizes the value of the LazySeq
(jump to line 55 for the details).
So you could say that conj
needs to know exactly what kind of collection you passed it, but cons
doesn't. cons
just requires that the "collection" argument is an ISeq
.
Note that Cons
objects in Clojure are different from "cons cells" in other Lisps -- in most Lisps, a "cons" is just an object which holds 2 pointers to other arbitrary objects. So you can use cons cells to build trees, and so on. A Clojure Cons
takes an arbitrary Object
as head, and an ISeq
as tail. Since Cons
itself implements ISeq
, you can build sequences out of Cons
objects, but they can just as well point to vectors, or lists, etc. (Note that a "list" in Clojure is a special type (PersistentList
), and is not built from Cons
objects.) clojure.lang.LazySeq
also implements ISeq
, so it can be used as the tail ("cdr" in Lisps) of a Cons
. A LazySeq
holds a reference to some code which evaluates to an ISeq
of some kind, but it doesn't actually evaluate that code until required, and after it does evaluate the code, it caches the returned ISeq
and delegates to it.
...is this all starting to make sense? Do you get the idea of how lazy sequences work? Basically, you start with a LazySeq
. When the LazySeq
is realized, it evaluates to a Cons
, which points to another LazySeq
. When that one is realized... you get the idea. So you get a chain of LazySeq
objects, each holding (and delegating to) a Cons
.
About the difference between "conses" and "lists" in Clojure, "lists" (PersistentList
objects) contain a cached "length" field, so they can respond to count
in O(1) time. This wouldn't work in other Lisps, because in most Lisps, "lists" are mutable. But in Clojure they are immutable, so caching the length works.
Cons
objects in Clojure don't have a cached length -- if they did, how could they be used to implement lazy (and even infinite) sequences? If you try to take the count
of a Cons
, it just calls count
on its tail, and then increments the result by 1.