I'm implementing a little program that does exponentiation ciphers. Some of the computations might fail, for instance, computing a modular inverse. I've used Maybe to deal with these sorts of failures. But now I'm stuck, as I need to "inject" the value inside of a maybe into another partially applied function. I know that if I had a function that took one argument, I'd use bind to do this.
import Data.Char import Math.NumberTheory.Powers extendedGcd::Integer->Integer->(Integer, Integer) extendedGcd a b | r == 0 = (0, 1) | otherwise = (y, x - (y * d)) where (d, r) = a `divMod` b (x, y) = extendedGcd b r modularInverse::Integer->Integer->Maybe Integer modularInverse n b | relativelyPrime n b = Just . fst $ extGcd n b | otherwise = Nothing where extGcd = extendedGcd relativelyPrime::Integer->Integer->Bool relativelyPrime m n | gcd m n == 1 = True | otherwise = False textToDigits::String->[Integer] textToDigits p = map (\x->toInteger (ord x - 97)) p digitsToText::[Integer]->String digitsToText d = map (\x->chr ((fromIntegral x) + 97)) d exptEncipher::Integer->Integer->Integer->Maybe Integer exptEncipher m k p | relativelyPrime k (p - 1) = Just $ powerMod p k m | otherwise = Nothing exptDecipher::Integer->Integer->Integer->Integer exptDecipher m q c = powerMod c q m exptEncipherString::Integer->Integer->String->[Maybe Integer] exptEncipherString m k p = map (exptEncipher m k) plaintext where plaintext = textToDigits p exptDecipherString::Integer->Integer->[Maybe Integer]->Maybe String exptDecipherString m k c = (fmap digitsToText) plaintext where q = modularInverse k (m - 1) plaintext = map (fmap $ exptDecipher m q) c
Specifically, my problem is in the function exptDecipherString, where I needed to inject the value encapsulated by the monad in q into the function exptDecipher, which I will then lift to work on c. What's the right way to do this? Also, I'm worried that I'll end up with a list of [Maybe Char] instead of the Maybe String that I want. I'm having problems reasoning through all of this. Can someone enlighten me?