# Rail Fence Cipher- Looking for a better solution

I have coded Rail Fence Cipher in Python. I was wondering if there could be a better solution.

For those who don't know what rail fence cipher is, it is basically a method of writing plain text in a way it creates linear pattern in a spiral way. Example - when "FOOBARBAZ" rail-fenced using key of 3.

``````F . . . A . . . Z . . .
. O . B . R . A . Q . X
. . O . . . B . . . U .
``````

Reading the above spiral line-by-line, the cipher text becomes "FAZOBRAQXOBU". Read more at - Rail fence - Wikipedia.

``````def cipher(s, key, graph=False) :
down=True
raw_out=[]
out=''
i=0
for x in range(key) :
raw_out.append({})
for pos in range(len(s)) :
raw_out[i][pos]=s[pos]
if i==key-1 :
down=False
if i==0 :
down=True
if down :
i=i+1
else :
i=i-1
for p in raw_out :
for q in p :
out+=p[q]
if graph :
return raw_out
return out

def decipher(s, key) :
map_list=cipher(s, key, True) #CREATING JUST FOR MAPPING - WHICHth CHARACTER OF THE STRING - IS WHICHth CHARACTER OF THE CIPHER
new={}
out=''
s_counter=0
for x in map_list :
for y in x :
new[y]=s[s_counter]
s_counter+=1
for p in new :
out+=new[p]
return map_list
``````

I was wondering if there was any better way of doing this, since my procedure is very costly, it a uses couple of dictionaries.

Code in any language is welcomed.

-

Just for the heck of it...

``````def fence(lst, numrails):
fence = [[None] * len(lst) for n in range(numrails)]
rails = range(numrails - 1) + range(numrails - 1, 0, -1)
for n, x in enumerate(lst):
fence[rails[n % len(rails)]][n] = x

if 0: # debug
for rail in fence:
print ''.join('.' if c is None else str(c) for c in rail)

return [c for rail in fence for c in rail if c is not None]

def encode(text, n):
return ''.join(fence(text, n))

def decode(text, n):
rng = range(len(text))
pos = fence(rng, n)
return ''.join(text[pos.index(n)] for n in rng)

z = encode('ATTACK.AT.DAWN', 3)
print z # ACTWTAKA.ANT.D
y = decode(z, 3)
print y # ATTACK.AT.DAWN
``````
-
wow! so short and succinct code. –  ShuklaSannidhya Jan 25 '13 at 12:16

See an explanation at my blog.

``````(define (waves str h)
(define (down str)
(if (>= h (length str))
(list (fill h str))
(cons (take h str) (up (drop h str)))))
(define (up str)
(if (>= (- h 2) (length str))
(list (pad (fill (- h 2) str)))
(cons (pad (take (- h 2) str)) (down (drop (- h 2) str)))))
(define (pad str) (append (list X) (reverse str) (list X)))
(define (fill h str) (append str (make-list (- h (length str)) X)))
(down str))

(define (fence lox h)
(define a (apply append (transpose (waves lox h))))
(filter (lambda (e) (not (eq? X e))) a))

(define (encipher str h)
(list->string (fence (string->list str) h)))

(define (decipher str h)
(define e (fence (range (string-length str)) h))
(define x (map list e (string->list str)))
(define y (sort (lambda (i j) (<= (car i) (car j))) x))