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What's the problem with following code: the func expression get expression that contains term that can contain expression...

(defn term[]
    (def mytmp (zip/xml-zip {:tag :term}))
      (= (first(:content(first vecTok))) "(")
          (def mytmp (popVecTo mytmp))
          (def mytmp (zip/append-child mytmp (expression)))
          (def mytmp (popVecTo mytmp)))
          (def mytmp (popVecTo mytmp)))
    (zip/node mytmp))
(defn expression[]
    (def mytmp (zip/xml-zip {:tag :expression}))
    (def mytmp (zip/append-child mytmp (term)))
    (while (contains? #{"+", "-", "*","/", "&", "|", "<", ">", "="} (first(:content(first vecTok))) )
        (def mytmp (popVecTo mytmp))
        (def mytmp (zip/append-child mytmp (term)))))
    (zip/node mytmp))
(def vecTok (vec (:content(first(xml-seq (parse  "C:/Users/User/Desktop/forHekronot/BallT.xml"))))))

In the file :

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use def in defn is bad idea, please use let. –  number23_cn Jun 6 '12 at 11:59
voted to close as no explanation of what the problem is that i can see. –  andrew cooke Jun 6 '12 at 12:46
Just a few issues that I see. 1) You're trying to write mutable code, instead of taking a more functional approach. 2) You're using (def ...) which define a top-level var instead of using something like let and the threading macro. 3) You appear to be constantly redefining vecTok, which isn't idiomatic Clojure. I think what you need to do is backup, and look at the xml stream as a sequence, and operate on that sequence using map, filter, and other sequence abstractions. –  jszakmeister Jul 27 '12 at 8:49

1 Answer 1

Notwithstanding @jszakmeister's comment on how to better solve the problem, let me try to give and answer to the question:

you can first (def expression) and then (defn term [] ...) and finally (defn expression [] ...).

The classic example for indirect recursion is of course the poor man's odd/even function for positive numbers:

clojurec.core=> (def even)
clojurec.core=> (defn odd [x]  (and (not (= x 0)) (even (dec x))))
clojurec.core=> (defn even [x] (or (= x 0) (odd (dec x))))
clojurec.core=> (even 10)
clojurec.core=> (odd 10)
clojurec.core=> (odd 10000)
StackOverflowError   clojure.lang.Numbers.equal (Numbers.java:214)

Ooops, depending on the size (or rather depth) of your file this could be a problem. But not all is lost, we can redefine even to use trampoline internally:

(defn even [n] 
  (letfn [(evenrec [x] (or (= x 0) #(oddrec (dec x)))) 
          (oddrec  [x] (and (not (= x 0)) #(evenrec (dec x))))]
    (trampoline evenrec n)))
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