Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to write an interpreter for Brainf*ck in Haskell. But I am getting a type error.

Only the relevant parts of the code is shown below:

--my own defined data type
data BFState = BFState {
  program :: String,      -- program being interpreted
  input :: String,  -- input for the program
  memory :: [Word8],     -- memory is a list of 8bit representation of INTs since only least 8 bits are read
  prog_pointer :: Int,         -- current pointer in the program STRING (pc)
  mem_pointer :: Int         -- current pointer in the memory LIST (pos)

--Initialise the BFState before the Intepreter runs the inputted BF code.
initState :: String -> String -> Int -> BFState
initState program input memSize = BFState program input (take memSize (repeat 0)) 0 0

--Helper function for the main function (bf program input)
run state = if isEnd state
            then return () --when reached the end, just return
            else do newState <- (iterateBF state) --update to new state after iterating one BF comand
                    run newState --run with new state

--the main function
bf program input = run (initState program input 10000)

Now, I get a type error:

Couldn't match expected type `String'
            with actual type `BFState -> String'
In the first argument of `initState', namely `program'
In the first argument of `run', namely
  `(initState program input 10000)'
In the expression: run (initState program input 10000)

What is the compiler referring to when it says actual type 'BFState -> String' ?

----For sepp2k

iterateBF :: BFState -> IO BFState
iterateBF state = case (program state !! prog_pointer state) of
    '+' -> return state {memory = setMem state ((getMem state) + 1), prog_pointer = nextPP state}
    '-' -> return state {memory = setMem state ((getMem state) - 1), prog_pointer = nextPP state}
    '>' -> return state {mem_pointer = (mem_pointer state) + 1, prog_pointer = nextPP state}
    '<' -> return state {mem_pointer = (mem_pointer state) - 1, prog_pointer = nextPP state}
    '[' -> return state {prog_pointer = prog_pointer'} where
            prog_pointer' = findClosingBrace (program state) (prog_pointer state)
    ']' -> return state {prog_pointer = prog_pointer'} where
            prog_pointer' = findOpeningBrace (program state) (prog_pointer state)
    ',' -> let inputVal = fromIntegral (fromEnum (head (input state))) in 
           return state {memory = setMem state inputVal, prog_pointer = nextPP state, input = drop 1 (input state)}
    '.' -> do hPutChar stdout (chr (fromEnum $ getMem state))
              hFlush stdout
              return state { prog_pointer = prog_pointer state}
    otherwise -> return (state {prog_pointer = nextPP state}) --ignore other characters

--check if we are at the end of the program
isEnd :: BFState -> Bool
isEnd state = (prog_pointer state) >= length (program state)
share|improve this question
I have a hard time seeing how the code you've posted can generate the error message you've shown. Are you sure you posted the code unchanged and that the line it's complaining about is the definition of bf (i.e. there isn't another line where you also have the expression run (initState ...))? Does bf maybe have a type signature in your real code? –  sepp2k Dec 1 '12 at 22:10
What happens if you use a different variable name than program in your definition of bf? At the moment you're trying to shadow the program defined in the BFState data definition, which does indeed have type BFState -> String –  Zopa Dec 1 '12 at 22:13
@Zopa That shouldn't be a problem though. Shadowing global bindings is perfectly legal in Haskell and should certainly not result in the local binding simply being ignored. –  sepp2k Dec 1 '12 at 22:14
@sepp2k I only posted parts of the code that I thought were relevant to the error. For instance, the defination for iterateBF is not there. I am sure the code posted is unchanged. bf does not have a type signature in my real code. I am pretty new to haskell just as background. –  ali Dec 1 '12 at 22:14
@Zopa OMG ZOPA!!! I changed program to `prog and theres no compilation errors! –  ali Dec 1 '12 at 22:17

2 Answers 2

up vote 4 down vote accepted

That's because the type of "program" (the first argument to your initState function) isn't String. It's actually BFState -> String, which you can verify by typing in ":t program" in the ghci prompt (without the quotes, of course).

share|improve this answer
Again: With the definition of bf as shown in the question, the inferred type of program (the first parameter of bf) should be String, not BFState -> String. –  sepp2k Dec 1 '12 at 22:16
@Ali seems to make sense. changing program to something else causes no compilation errors. could it be that program defined in the data BFState is like globally accessible. That is to say any occurance of program in the following definations will be referring to that? –  ali Dec 1 '12 at 22:23
@ali No. I mean, yes, it is globally accessible, but local bindings always shadow global bindings. Inside the definition of bf the identifier program should always refer to the local program (i.e. bf's first parameter) - never the global program. The only way this wouldn't be so would if you had typoed the parameter name in your real code (so it actually reads something like bf programm input = run (initState program input 10000)). –  sepp2k Dec 1 '12 at 22:27
@sepp2k Ahhh i see where you are coming from. hmm.. no wonder dave4420 is mystified, as so are we. –  ali Dec 1 '12 at 22:30

program is expected to have type String (because that's what the type signature of initState says it should be), but actually has type BFState -> String because that's the type of the first argument to bf.

If you supply an explicit type signature for bf, you will probably find that the actual mistake in your code is that somewhere you are calling bf with a first argument of type BFState -> String.

share|improve this answer
Since there is no type signature for bf, wouldn't the inferred type of program be String and the error would happen on the line where bf is called with anything other than a string as the first argument? –  sepp2k Dec 1 '12 at 22:08
@dave4420 bf is not called anywhere else, and is only defined there in that last line. –  ali Dec 1 '12 at 22:10
@ali In that case I am mystified. –  dave4420 Dec 1 '12 at 22:14
@dave4420 oh boy. –  ali Dec 1 '12 at 22:15

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.