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All examples are taken from the SICP Book: http://sicpinclojure.com/?q=sicp/1-3-3-procedures-general-methods

This was motivated from the MIT video series on LISP - http://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-001-structure-and-interpretation-of-computer-programs-spring-2005/video-lectures/2a-higher-order-procedures/

In scheme, you can put 'define' inside another 'define':

(define (close-enough? v1 v2)
    (define tolerance 0.00001)
    (< (abs (- v1 v2)) tolerance ) )

In clojure, there is the 'let' statement with the only difference that it is nested:

(defn close-enough? [v1 v2]
    (let [tolerance 0.00001]
         (< (Math/abs (- v1 v2) ) 
            tolerance) ) )

But what about rewriting in clojure something bigger like this?:

(define (sqrt x)
  (define (fixed-point f first-guess)
    (define (close-enough? v1 v2)
      (define tolerance 0.00001)
      (< (abs (- v1 v2)) tolerance))
    (define (try guess)
      (let ((next (f guess)))
         (if (close-enough? guess next)
            next
            (try next))))
    (try first-guess))
  (fixed-point (lambda (y) (average y (/ x y)))
           1.0))

This does in fact work but looks very unconventional...

(defn sqrt [n]
  (let [precision       10e-6
        abs             #(if (< % 0) (- %) %)
        close-enough?   #(-> (- %1 %2) abs (< precision))
        averaged-func   #(/ (+ (/ n %) %) 2)
        fixed-point     (fn [f start]
                            (loop [old start
                                   new (f start)]
                                (if (close-enough? old new) 
                                    new
                                    (recur new (f new) ) ) ) )]

        (fixed-point averaged-func 1) ) )

 (sqrt 10)

UPDATED Mar/8/2012

Thanks for the answer!

Essentially 'letfn' is not too different from 'let' - the functions being called have to be nested in the 'letfn' definition (as opposed to Scheme where the functions are used in the next sexp after its definitions and only existing within the scope of the top-level function in which it is defined).

So another question... Why doesn't clojure give the capability of doing what scheme does? Is it some sort of language design decision? What I like about the scheme organization is:

  • 1) The encapsulation of ideas so that I as the programmer have an idea as to what little blocks are being utilized bigger block - especially if I am only using the little blocks once within the big block (for whatever reason, even if the little blocks are useful in their own right).

  • 2) This also stops polluting the namespace with little procedures that are not useful to the end user (I've written clojure programs, came back to them a week later and had to re-learn my code because it was in a flat structure and I felt that I was looking at the code inside out as opposed to in a top down manner).

  • 3) A common method definition interface so I can pull out a particular sub-method, de-indent it test it, and paste the changed version back without too much fiddling around.

Why isn't this implemented in clojure?

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1  
that's an interesting question but i don't think i would try to put that all in one function. –  Kevin Mar 27 '12 at 13:59

4 Answers 4

up vote 10 down vote accepted

the standard way to write nested, named, procedures in clojure is to use letfn.

as an aside, your example use of nested functions is pretty suspicious. all of the functions in the example could be top-level non-local functions since they're more or less useful on their own and don't close over anything but each other.

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Thanks for your that! Please have a look at the updated question! –  zcaudate Mar 28 '12 at 1:22

The people critizing his placement of this in all one function, don't understand the context of why its been done in such a manner. SICP, which is where the example is from, was trying to illustrate the concept of a module, but without adding any other constructs to the base language. So "sqrt" is a module, with one function in its interface, and the rest are local or private functions within that module. This was based on R5RS scheme I believe, and later schemes have since added a standard module construct I think(?). But regardless, its more demonstrating the principle of hiding implementation.

The seasoned schemer also goes through similar examples of nested local functions, but usually to both hide implementation and to close over values as well.

But even if this wasn't a pedagogical example, you can see how this is a very lightweight module and I probably would write it this way within a larger "real" module. Reuse is ok, if its planned for. Otherwise, you are just exposing functions that probably won't be a perfect fit for what you need later on and, at the same time, burdening those functions with unexpected use cases that could break them later on.

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Basically, clojure does have the capability. The following code, which reflects exactly the same code structure of your scheme code works.

(defn sqrt [x] 
  (defn fixed-point [f first-guess]
    (defn close-enough? [v1 v2] 
      (let [tolerance 0.000000001]
        (< (Math/abs (- v1 v2))
           tolerance)))
    (defn tryo [guess]
      (loop [oldo guess
             newo (f oldo)]
        (if (close-enough? oldo newo)
            newo
      (recur newo (f newo)))))
    (tryo first-guess))
  (fixed-point (fn [y] (/ (+ y (/ x y)) 2)) 1.0))

But it's said to be not idomatic. I don't understand the reason either. Simetimes I need use let and letfn at the same time, which makes my code really ugly.

EDIT: The reason that it's not idomatic is that def is not lexically scoped. So it will pollute the namespace.

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does it clobber the namespace? for example, if I have another function fixed-point in the same namespace, what will happent? –  zcaudate Aug 12 '13 at 5:23
    
I think it looks pretty nice =) –  zcaudate Aug 12 '13 at 5:23
1  
Yes, you are right. The namespace is polluted. Def is not lexical scoped as scheme does. –  Wei Qiu Aug 12 '13 at 17:14

letfn is the standard way.

But since Clojure is a Lisp, you can create (almost) any semantics you want. Here's a proof of concept that defines define in terms of letfn.

(defmacro define [& form]
  (letfn [(define? [exp]
            (and (list? exp) (= (first exp) 'define)))
          (transform-define [[_ name args & exps]]
            `(~name ~args
               (letfn [~@(map transform-define (filter define? exps))]
                 ~@(filter #(not (define? %)) exps))))]
    `(defn ~@(transform-define `(define ~@form)))))

(define sqrt [x]
  (define average [a b] (/ (+ a b) 2))
  (define fixed-point [f first-guess]
    (define close-enough? [v1 v2]
      (let [tolerance 0.00001]
        (< (Math/abs (- v1 v2)) tolerance)))
    (define tryy [guess]
      (let [next (f guess)]
        (if (close-enough? guess next)
          next
          (tryy next))))
    (tryy first-guess))
  (fixed-point (fn [y] (average y (/ x y)))
               1.0))

(sqrt 10)   ; => 3.162277660168379

For real code, you'd want to change define to behave more like R5RS: allow non-fn values, be available in defn, defmacro, let, letfn, and fn, and verify that the inner definitions are at the beginning of the enclosing body.

Note: I had to rename try to tryy. Apparently try is a special non-function, non-macro construct for which redefinition silently fails.

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That is very very cool. I wish I can give your answer more upvotes! –  zcaudate Jan 24 at 6:26

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