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I keep getting the error: "Instance of Num Char required for definition of enigma_encode" and I really can't work out why.

as I understand, this error message is associated with the guards in the function enigma_encode:

| or < 25

but I don't understand why as I'm comparing an Int (as defined in the SimpleEnigma data type with an integer constant?

Can someone shed some light as to firstly what they problem is, why it is occuring, and perhaps some way to fix it.

Many thanks Vasily (computer science student in Sheffield university)

sorry I thought that it was a comparison error with the SimpleEnigma 'or' part of that data structure in enigna_encode. But here is the whole code in it's entirity:

module Enigma where
    import Cipher
    import AssignmentHelp

--Rotor data structure definition
data Rotor = R1 | R2 | R3 | R4 | R5 

--assigning rotor constants to cipher constants type definition
rtr_2_ciph :: Rotor -> Cipher
--assigning rotor constants to cipher constants function definition
rtr_2_ciph R1 = rotor1
rtr_2_ciph R2 = rotor2
rtr_2_ciph R3 = rotor3
rtr_2_ciph R4 = rotor4
rtr_2_ciph R5 = rotor5

--SimpleEnigma data structure definition
type SimpleEnigma = (Rotor, Rotor, Rotor, Int, Int, Int)

--Reflector data structure definition
type Reflector = [(Char,Char)]

--Standard reflector type defintion
st_reflector :: Reflector
st_reflector = [('A','Y'),('B','R'),('C','U'),('D','H'),('E','Q'),('F','S'),('G','L'),('I','P'),('J','X'),('K','N'),('M','O'),('T','Z'),('V','W')]

--Enigma Encode type definition
enigma_encode :: Char -> SimpleEnigma -> Char
--Enigma Encode function definition
enigma_encode x (lr, mr, rr, ol, om, or)
    | or < 25 = reverse_encode (reverse_encode (reverse_encode (reflection (encode (encode (encode x (rtr_2_ciph rr) (or+1)) (rtr_2_ciph mr) om) (rtr_2_ciph lr) ol) st_reflector) (offset_cipher (rtr_2_ciph lr) ol)) (offset_cipher (rtr_2_ciph mr) om)) (offset_cipher (rtr_2_ciph rr) (or+1))
    | or == 25 = reverse_encode (reverse_encode (reverse_encode (reflection (encode (encode (encode x (rtr_2_ciph rr) 0) (rtr_2_ciph mr) (om+1)) (rtr_2_ciph lr) ol) st_reflector) (offset_cipher (rtr_2_ciph lr) ol)) (offset_cipher (rtr_2_ciph mr) (om+1))) (offset_cipher (rtr_2_ciph rr) 0)
    | or == 25 && om == 25 = reverse_encode (reverse_encode (reverse_encode (reflection (encode (encode (encode x (rtr_2_ciph rr) 0) (rtr_2_ciph mr) 0) (rtr_2_ciph lr) (ol+1)) st_reflector) (offset_cipher (rtr_2_ciph lr) (ol+1))) (offset_cipher (rtr_2_ciph mr) 0)) (offset_cipher (rtr_2_ciph rr) 0)
    | or == 25 && om == 25 && ol == 25 = reverse_encode (reverse_encode (reverse_encode (reflection (encode (encode (encode x (rtr_2_ciph rr) 0) (rtr_2_ciph mr) 0) (rtr_2_ciph lr) 0) st_reflector) (offset_cipher (rtr_2_ciph lr) 0)) (offset_cipher (rtr_2_ciph mr) 0)) (offset_cipher (rtr_2_ciph rr) 0)

--Reflection type definition
reflection :: Char -> Reflector -> Char
--Reflection function definition
reflection x (h:t)
    | x == fst h = snd h
    | x == snd h = fst h
    | otherwise = reflection x t

Then also here is the encode and reverse encode and offset functions and any associated data structures:

--1) Cipher data structure definition
type Cipher = String
--kept it as a string as easy to manipulate and work with using the in-built 
--list functions due to string = [Char]

--Plan Text Cipher constant Definition
plain_cipher :: Cipher
--just the standard alphabet used later, can be changed any string (ie another alphabet)

--encode type defintion
encode :: Char -> Cipher -> Int ->  Char
--encode function definiton
encode x cipher offset 
    | validate_cipher cipher = offset_cipher cipher offset!!head (elemIndices x plain_cipher)
    {--before encoding, validates the substitute cipher. Then if valid, offsets the cipher           
       and returns the encoded char in correlation to its index in the plain cipher.  
       the head of elemIndices is used to avoid having to deal with maybe int in elemIndex function--}

--offset the cipher type definition
offset_cipher :: Cipher -> Int -> Cipher
--offset the cipher function definition
offset_cipher cipher offset = drop (26 - mod offset 26) cipher ++ take (26 - mod offset 26) cipher
--takes any number offset, including those above 26 by dropping letters from the tail of the substitute cipher
--by 26 - (the mod of the offset by 26). Then adds the rest of the subsitute cipher to the end with take.

--reverseEncode type defintion
reverse_encode :: Char -> Cipher -> Char
--decode function definition
reverse_encode x cipher
    | validate_cipher cipher = plain_cipher!!head (elemIndices x cipher)
    {-- before reverse encoding, validates the cipher. If the cipher is valid
        then again using elemindices (again to avoid maybe int) finds the correlating
        index in the substitute cipher and uses that index in the plain cipher to decode the char --}

I'd just like to mention that anything in this second part of the code: what's been imported from cipher.hs (encode, offset, reverse_encode) have all been tried and tested and work perfectly as they're meant to be which is why I didn't think that they were part of the problem but I guess they may be somehow :)

Thanks for commenting so quickly, didn't realise how dedicated the community is !

Anything else that's needed in terms of explanation or something that's missing, just comment thanks :)


share|improve this question
I don't think you've given us the relevant code. The error relates not to comparisons, but to Num methods, ie. plus, minus and friends. –  Sarah Oct 19 '13 at 16:53
What is the signature of the encode function? Is the first argument a Char? –  danidiaz Oct 19 '13 at 16:54
Can you provide a minimal working example of the error? The 300 character lines without knowing the type signatures of most of the functions makes it impossible to know what the problem is –  bheklilr Oct 19 '13 at 17:10
There are no working examples of this, it doesn't let me load the program. But if I were to run the program I'd be looking to enter enigma_encode 'x' ( R1, R2, R3, 0, 2, 5) for example. which would encode the character in the rotors 1, 2 and 3 which are connected to the rotor data type by rtr_2_ciph to the constants associated to them in AssignmentHelp eg : rotor1="EKMFLGDQVZNTOWYHXUSPAIBRCJ".Hope that answers your question, I'm not sure I quite understood it –  Vasily Shelkov-turner Oct 19 '13 at 19:01
| or == 25 = reverse_encode (reverse_encode (reverse_encode (reflection (encode (encode (encode x (rtr_2_ciph rr) 0) (rtr_2_ciph mr) $ om+1) (rtr_2_ciph lr) ol) st_reflector) (offset_cipher (rtr_2_ciph lr) ol)) (offset_cipher (rtr_2_ciph mr) (om+1))) (offset_cipher (rtr_2_ciph rr) 0). Always include the whole error message. –  Zeta Oct 19 '13 at 19:12

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