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
WHOEVERHASMADEAVOYAGEUPTHEHUDSONMUSTREMEMBERTHEKAATSKILLMOUNTAINS
```