# How to decipher an unknown substitution cipher

You are given a file containing a list of strings (one per line). The strings are sorted and then encrypted using an unknown substitution cipher (e.g. `a < c, b < r, c < d`). How do you determine what the mapping is for the substitution cipher? The unencrypted strings can be in any language.

I'd like to know if that question is hard or not, I was applying for a new graduate position, and I couldn't solve it that good, and he stayed about 45 mins with me on that question.

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are you given enough sample input/output. Though basically this would mean to give away the substitution. –  Shamim Hafiz Nov 5 '10 at 11:24
Are you given just the encrypted strings, or both? –  Marcelo Cantos Nov 5 '10 at 11:25
I'm lost by this example `(e.g. a < c, b < r, c < d)`. –  Buhake Sindi Nov 5 '10 at 11:25
if you aren't given enough strings in the file, then there's no unique solution, surely? If you have strings beginning with each letter of the alphabet and you know the collation sequence for the plain text language, you can read off the substitution. –  Chris Card Nov 5 '10 at 11:26
The Elite Gentleman: I took that just to mean c is the substitution for a, r for b, d for c. In which case I agree with Chris Card — this is a substitution cypher, so the solutions are variants on frequency analysis, which requires that you know the input language. If the strings can be in any language, you don't even have a means to verify the output, unless they explicitly mean any existing language, in which case I suspect there's probably enough variation to defeat frequency analysis. –  Tommy Nov 5 '10 at 11:36

I guess the key fact is that the strings were sorted before encryption, so you need not worry about language at all.

First solution that comes to my mind is just creating a brute-force backtracking algorithm, but this is probably not good.

Second solution I can think of is to extract all known relationships from the file, eg. this file:

``````xtw
yaw
yay
``````

will tell you that `x < y` (because xtw < yaw) and `w < y` (because yaq < yay). After you have the directed graph of relationships, you just need to topologically sort this graph, and your solution is there.

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+1 for your second solution. It was my first thought, but I didn't get the answer posted quickly. It does of course depend on having enough data. –  Don Roby Nov 5 '10 at 11:45
erik , at the end of the interview he said , have you heard about Graphs , its a graph problem ... I've read about graphs before the interview but couldn't Imagine that problem as a graph :( –  Ahmed Saleh Nov 5 '10 at 11:45
This is the answer. I missed the fact that the strings are sorted in unencrypted order to begin with. Once you realise this, the language doesn't matter so long as you have enough strings to make the mapping unambiguous. –  SimonJ Nov 5 '10 at 11:48

I wouldn't label it as an easy question for sure. I think whatever solution you use, you will need to have some strong heuristics, and preferably some experience doing cipher puzzles.

You mention that the strings are sorted, I'm not sure if you could use that as a heuristic; if yes, then you can look at the first character of each word, and use that to figure out what the cypher is. I'm going to assume you can't do that, though.

Start out with a dictionary of all words for the chosen language, and, if possible, a frequency of how often those words tend to occur. Start with whichever size word occurs least frequently (For most languages, English included, this will be the 1 letter words), and start plugging away trying different possibilities doing a breadth first search.

There might be a better solution, though.

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Well, usually substitution ciphers are 'broken' with statistical methods (Frequency distribution) which is probably not really feasible here since you don't know the language of the unenctypted string (might be vulcan?). Still you could at least try some known distributions. The hint is that the input is sorted (assuming that it is in latin alphabet). Still I can not judge how hard this would be.

But just a thougt: Why do you assume that to succed in this test you would have to 'solve' the actual problem? I think the interviewer just wanted to test your general problem-solving skills, how you go about solving problems, where you are not qualified (the classic from Google-Interviews: You are tiny and sit in a huge blender: What to you do?)

Regards Andreas

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