# deciphering the amsco cipher

i have successfully implemented a programme to convert plaintext to cipher text for the [amsco cipher] (http://www.thonky.com/kryptos/amsco-cipher/) . However i am not able to get how to go about for converting the cipher text to plain text. How do we determine the length of columns (or number of rows for each column) which converting the cipher to plain text ? E.g if the cipher text is EMAAE HUMBA LMNRE AUDSR RTSUN WHAVP TOEMH KITVE DGEUS TEATO SHOSO YHNME EKLAI and the column key is 35142 then under column '1' the start letter is E and next row in the same column would be MA. The third row in column number '1' will have 'A' and so on. However how do we determine the total number of rows for each column ?

Thanks.

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the easiest way, i think, is to just write a loop that does what you did to encode. so it adds up 1s and 2s for each column until there are no letters left.

here's a program that decodes the text to show what i mean (it's written in python 3):

words = ['EMAAE', 'HUMBA', 'LMNRE', 'AUDSR', 'RTSUN', 'WHAVP',
'TOEMH', 'KITVE', 'DGEUS', 'TEATO', 'SHOSO', 'YHNME', 'EKLAI']

ctext = ''.join(words)
l = len(ctext)
print('\ntotal chars', l)

key = '35142'
n = len(key)
print('\nkey length', n)

# here we do exactly the same as what you did to encode, except we just
# count the letters.  so chars[x] is the number of characters in column x,
# which starts at 0 and is added 1 or 2 on each line.
chars = [0] * n
remaining = l
ichar = 0
chunk = 0
while remaining > 0:
k = min(chunk+1, remaining)
chars[ichar] += k
remaining -= k
ichar = (ichar + 1) % n  # this indexes the columns 0..n-1,0..n-1,...
chunk = (chunk + 1) % 2  # this goes 0,1,0,1,... and we +1 above

# now we have the number of characters in each column, so display that
print('\nkey digit and number of characters')
for i, digit in enumerate(key):
print(digit, chars[i])

# but the ordering in the encrypted data is different, so we re-order to
# match that.  this uses a bit of a trick in python - if we order a list of
# pairs (a,b) then is it ordered by the first thing in the pair (the key
# digit) here.  so we order by the key digit, but also re-arrange the
# columns sizes.
digitsandchars = [(digit, chars[i]) for i, digit in enumerate(key)]
print('\nbefore sorting', digitsandchars)
digitsandchars = sorted(digitsandchars)
print('after sorting', digitsandchars)

# now that we have the columns sizes in the right order we can cut up the
# text into the columns
columns = [''] * n
for i in range(n):
digit, nchars = digitsandchars[i]
columns[i] = ctext[:nchars]
ctext = ctext[nchars:]
print('digit', digit, 'column', columns[i])

# now switch the columns back to the order they were originally
ordered = [columns[int(key[i])-1] for i in range(n)]
print('\nordered columns', ordered)

# and finally we can decode by doing the same process as before - we pick
# off 1 or 2 characters from each column until we have nothing left.
print('\ndecode')
icolumn = 0
remaining = l
chunk = 0
while remaining > 0:
column = ordered[icolumn]
k = min(chunk+1, remaining)
print(column[:k], end='')  # print the first k characters
remaining -= k
ordered[icolumn] = column[k:]  # remove the printed characters
icolumn = (icolumn + 1) % n
chunk = (chunk + 1) % 2
print()

and here's the output:

total chars 65

key length 5

key digit and number of characters
3 13
5 14
1 13
4 13
2 12

before sorting [('3', 13), ('5', 14), ('1', 13), ('4', 13), ('2', 12)]
after sorting [('1', 13), ('2', 12), ('3', 13), ('4', 13), ('5', 14)]
digit 1 column EMAAEHUMBALMN
digit 2 column REAUDSRRTSUN
digit 3 column WHAVPTOEMHKIT
digit 4 column VEDGEUSTEATOS
digit 5 column HOSOYHNMEEKLAI

ordered columns ['WHAVPTOEMHKIT', 'HOSOYHNMEEKLAI', 'EMAAEHUMBALMN', 'VEDGEUSTEATOS', 'REAUDSRRTSUN']

decode