# Clojure For Comprehension example

I am using docjure and it needs a column map for its select-columns function. I would like to grab all my columns without having to specify it manually. How do I generate the following as a lazy infinite vector sequence [:A :B :C :D :E ... :AA :AB :AC .... :ZZ ... :XFD]?

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vectors aren't lazy though. –  Gert Jul 17 '12 at 22:39
does it have to stop at 3 or can it continue forever? –  andrew cooke Jul 17 '12 at 23:14
@Gert it doesn't have to be a vector. –  KobbyPemson Jul 18 '12 at 14:15
@Andrew excel only goes up to 3 so three would suffice –  KobbyPemson Jul 18 '12 at 14:44

Your question boils down to: "How do I convert a number to a base-26 string with the alphabet A-Z?".

Here's one way to do that - probably not the most concise way, but making it more elegant is left as an exercise for the reader :).

Assume that numbers 0-25 map to 'A'-'Z', 26 maps to 'AA', etcetera. First we define a function `to-col` that converts an integer to a column keyword. You can use that function to generate an infinite sequence.

``````(defn to-col [num]
(loop [n num s ()]
(if (> n 25)
(let [r (mod n 26)]
(recur (dec (/ (- n r) 26)) (cons (char (+ 65 r)) s)))
(keyword (apply str (cons (char (+ 65 n)) s))))))
``````

That gives you a way to generate an infinite sequence of column keywords:

``````(take 100 (map to-col (range)))
;; => (:A :B :C :D :E :F :G :H :I :J :K :L :M :N :O :P :Q :R :S :T :U :V :W
;; :X :Y :Z :AA :AB :AC :AD :AE :AF :AG :AH :AI :AJ :AK :AL :AM :AN :AO :AP
;; :AQ :AR :AS :AT :AU :AV :AW :AX :AY :AZ :BA :BB :BC :BD :BE :BF :BG :BH
;; :BI :BJ :BK :BL :BM :BN :BO :BP :BQ :BR :BS :BT :BU :BV :BW :BX :BY :BZ
;; :CA :CB :CC :CD :CE :CF :CG :CH :CI :CJ :CK :CL :CM :CN :CO :CP :CQ :CR
;; :CS :CT :CU :CV)
``````
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The essential clojure function for corecursion (and "tying the knot" is about it, no?) is iterate:

``````(def abc (map (comp str char) (range 65 91)))
(defn cols [seed]
(let [next #(for [x %] (for [y seed] (str x y)))]
(->> (iterate #(apply concat (next %)) seed)
(mapcat identity))))

(time (first (drop 475254 (cols abc))))
"Elapsed time: 356.879148 msecs"
"AAAAA"

(doc iterate)
-------------------------
clojure.core/iterate
([f x])
Returns a lazy sequence of x, (f x), (f (f x)) etc. f must be free of side-effects
``````

EDIT: Generalization of the function to return the "ordered" subsets of a set

``````(defn ordered-combinations [seed]
(->> (map list seed)
(iterate #(for [x % y seed] (concat x [y])))
(mapcat identity)))

(def cols
(let [abc (map char (range 65 91))]
(map #(apply str %) (ordered-combinations abc))))

user> (take 30  (map #(apply str %) cols))
("A" "B" "C" "D" "E" "F" "G" "H" "I" "J" "K" "L" "M" "N" "O" "P" "Q" "R" "S" "T" "U" "V" "W" "X" "Y" "Z" "AA" "AB" "AC" "AD")
user> (take 28 (ordered-combinations [0 1]))
((0) (1) (0 0) (0 1) (1 0) (1 1) (0 0 0) (0 0 1) (0 1 0) (0 1 1) (1 0 0) (1 0 1) (1 1 0) (1 1 1) (0 0 0 0) (0 0 0 1) (0 0 1 0) (0 0 1 1) (0 1 0 0) (0 1 0 1) (0 1 1 0) (0 1 1 1) (1 0 0 0) (1 0 0 1) (1 0 1 0) (1 0 1 1) (1 1 0 0) (1 1 0 1))
``````
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This answer is wrong; hopefully in an educational way.

mathematically what you are asking for is a lazy sequence of all subsets of the infinite sequence of the alphabet.

``````(take 40 (map #(keyword (apply str %))
(rest (combinatorics/subsets  "ABCDEFGHIJKLMNOPQRSTUVWXYZ"))))
(:A :B :C :D :E :F :G :H :I :J :K :L :M :N
:O :P :Q :R :S :T :U :V :W :X :Y :Z :AB :AC
:AD :AE :AF :AG :AH :AI :AJ :AK :AL :AM :AN :AO)

foo.core> (nth (map #(keyword (apply str %))
(rest (combinatorics/subsets  "ABCDEFGHIJKLMNOPQRSTUVWXYZ")))
40000)
:BLOUZ
``````

project.clj:

``````(defproject foo "1.0.0-SNAPSHOT"
:description "FIXME: write description"
:dependencies [[org.clojure/clojure "1.3.0"]
[ org.clojure/math.combinatorics "0.0.3"]]
:dev-dependencies [[swank-clojure/swank-clojure "1.4.0"]]) ; swank)
``````

using math.combanatorics:

``````(ns foo.core
(:require [clojure.math.combinatorics :as combinatorics]))
``````
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the (rest ... ) is these to remove the empty subset which we dont care about –  Arthur Ulfeldt Jul 18 '12 at 0:32
the astute reader will notice that this sequence it not actually infinite ... ;-) but the sun will burn out first. –  Arthur Ulfeldt Jul 18 '12 at 0:35
oops, this is wrong, it's ommiting :AA, let's see if that can be fixed –  Arthur Ulfeldt Jul 18 '12 at 0:35
You will skip `:BB` as well, and so on. You don't want set combinations, you want a cartesian product of the set with itself. –  amalloy Jul 18 '12 at 0:50
the cartesian product still doesn't work. perhaps I was just wrong on this one. (i'll leave the answer because others may find it useful though) –  Arthur Ulfeldt Jul 18 '12 at 1:41

I think this may be the kind of thing you were looking for (if not, well, at least it is what I thought the "correct" answer should be ;o).

``````(defn stream [seed]
(defn helper [slow]
(concat (map #(str (first slow) %) seed) (lazy-seq (helper (rest slow)))))
(declare delayed)
(let [slow (cons "" (lazy-seq delayed))]
(def delayed (helper slow))
delayed))

(take 25 (stream ["a" "b" "c"]))
("a" "b" "c" "aa" "ab" "ac" "ba" "bb" "bc" "ca" "cb" "cc" "aaa" "aab" "aac" "aba" "abb" "abc" "aca" "acb" "acc" "baa" "bab" "bac" "bba")
``````

Code in git. I suspect I am abusing `def` horribly, but it works.

The idea is pretty simple: I take the output from the sequence and feed it back on itself. For each value in the output (which is also the input), I generate a new output by appending each of the letters in the seed sequence. Since this is circular it just keeps on going (there's an initial "" which is in the input, but not the output, that helps avoid creating something from nothing).

The process of feeding the output into the input is called "tying the knot" in a fairly famous paper for Haskell. But it's harder to do in Clojure because it's an eager language (and even lazy sequences aren't "lazy enough") - the only solution I could find was that mess with `def` (I suspect someone might do better with `delay` and `force`, but I had no luck).

And maybe it could even be written as a map?

[updated 2012-07-19 with more compact code]

Related question with much better code in an answer at Tying the knot in Clojure: circular references without (explicit, ugly) mutation? (it's the same idea as jneira's answer).

For completeness, here's the final version using `iterate`:

``````(defn stream [seed]
(defn helper [slow] (mapcat (fn [c] (map #(str c %) seed)) slow))
(apply concat (iterate helper seed)))
``````
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Probably there is a way to remove the "for" duplication, but here is something that works for me:

``````(def all-letters (map char (range 65 90)))
(defn kw [& args] (keyword (apply str args)))
(concat
(for [l all-letters] (kw l))
(for [l all-letters l2 all-letters] (kw l l2))
(for [l all-letters l2 all-letters l3 all-letters] (kw l l2 l3)))
``````
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(map char (range 65 90)) produces characters \A to \Y, and your solution is not infinite. –  Gert Jul 17 '12 at 23:26
``````#include<stdio.h>
int main()
{
int n=703;

char arr[26]={'a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z'};

while(n){
printf("%c ",arr[(n)%26]);
n=(n)/26;

}
return 0;
}
``````

guys is this as simple as this or am i missing something .... of course the above program prints the required atring in reverse we can avoid that by using recursion or store it in a string to reverse it ...

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your solution isn't in clojure –  KobbyPemson Oct 9 '12 at 14:07
@KobbyPemson can u pls explain wat do u mean ..i didnt get you .. –  Sree Ram Oct 9 '12 at 14:43