# Can you translate these 2 examples from Functional Languages 101 ? (Scheme -> Clojure)

Got these examples I would like to understand but they are in Scheme. I would like them in Clojure :D

Example 1 - counting the length of a list

``````
(define length
(lambda (ll)
(cond
((null? ll) 0)
(length (cdr ll)))))))
``````

Exemple 2 - square each element of a list

``````
(define squares
(lambda (li)
(cond
((null? li) ())
(#t (cons
(* (char li) (char li))
(squares(cdr
li)))))))
``````

Example 3 - the "map" function (as in map/reduce)

``````
(define map (lambda (func lst)
(cond ((null? lst) ())
(#t (cons (func (car lst))
(map func (cdr lst)))))))
``````

Curried "map"

``````
(define map2
(lambda (func)
(lambda (lst)
(cond ((null? lst) ())
(#t (cons (func (car lst))
((map2 func) (cdr lst)))))))
``````

Motivation

The examples are from a presentation on Functional Programming someone else might be interested it: Functional Languages 101: What’s All the Fuss About?

Once you submit an answer, I'd like your agreement to post it as a comment at that presentation for Clojure people to understand the original code

Length of a list:

``````(defn my-length [lst]
(loop [len 0 x lst]
(if (empty? x)
len
(recur (+ 1 len) (rest x)))))

user=> (my-length '(1))
1
user=> (my-length '(1 2 3 4))
4
user=> (my-length '())
0
``````

Square each element of a list:

``````(defn squares [lst]
(loop [sqrs '() x lst]
(if (empty? x)
(reverse sqrs)
(recur (cons (* (first x) (first x)) sqrs) (rest x)))))

user=> (squares '(1 2 3 4))
(1 4 9 16)
``````

Map:

``````(defn my-map [func lst]
(loop [res '() x lst]
(if (empty? x)
(reverse res)
(recur (cons (func (first x)) res) (rest x)))))

user=> (my-map (fn [x] (* x 2)) '(1 2 3))
(2 4 6)
``````

Map2:

See nickik's solution.

Its all scheme to clojure stuff. You can download the source of the Essentials of Programming Languages-Book to have the Scheme code.

Here are your examples:

``````(defn length [lst]
(cond
(seq ll) 0
:else (inc (length (rest lst))))))
``````

Note: clojure has a count function

``````(defn squares1 [li]
(cond (nil? (seq li)) (empty li)
:else (conj (squares1 (rest li)) (* (first li) (first li)))))

(defn squares2 [li]
(map #(* % %)  li))
``````

``````(defn mymap [f coll]
(cond (nil? (seq coll)) (empty coll)
:else (conj (mymap f (rest coll)) (f (first coll)))))
``````

``````(defn map2 [f]
(fn [lst]
(cond (nil? (seq lst)) (empty lst)
:else (conj ((map2 f) (rest lst)) (f (first lst))))))
``````

Note you can not just make a 1:1 translation. The diffrence between how '() evals and so on.

Here are the most importend ones

• (nil? (seq list)) not (null? lst) because '() is not nil in clojure
• conj is better then cons you can make the function work with mure datastructures
• (empty lst) is better then '() because (empty lst) keeps the type vector, list, record, structs or something else

And more clojurey translation of `map`:

``````(defn map
[f coll]
(lazy-seq
(when-let [s (seq coll)]
(cons (f (first s)) (map f (rest s))))))
``````

Exploit closures: define `map-inner` like `map` above.

``````(defn map
[f]
(fn [coll]
(map-inner f coll)))
``````

In idiomatic clojure normally you exploit that the nil is logical false.

``````(defn length
[coll]
(loop [s   (seq coll)
len 0]
(if s
(recur (next s) (inc len))
len)))
``````

As with `map`: you would use lazy sequences instead of eager lists.

``````(defn squares
[coll]
(lazy-seq
(when-let [s (seq coll)]
(let [fst (first s)]
(cons (* fst fst) (squares (rest s)))))))
``````

`define` is `def` in clojure, `lambda` is `fn`, function arguments are written as vectors `[]`, not lists `()`, `null?` is `empty`, `car` is `first`, `cdr` is `rest` and the default case for `cond` is specified with `:else`, not `#t`.

So for your first example we get:

``````(def length
(fn [ll]
(cond
(empty? ll) 0
:else (+ 1 (length (rest ll))))))
``````

This can be written a little more succinctly using `defn` instead of `def` and `fn`, but the same is true for the scheme version, so I chose the way that is the closest to the original.

The other examples can be translated the same way.

• what about "func" ? – Belun Oct 15 '10 at 10:46
• @Belun: That's just a name. `lambda (func lst)` is a lambda taking two arguments named `func` and `lst`. The clojure equivalent is `fn [func lst]`. – sepp2k Oct 15 '10 at 10:48
• @sepp2k> here's a challenge for you: can you create and use a macro for example 1 and 2 ? :P – Belun Oct 15 '10 at 11:13
• @Belun: A macro doing what? – sepp2k Oct 15 '10 at 11:21
• its not an idiomatic version – nickik Oct 15 '10 at 11:32