I'm writing a brainfuck interpreter in Haskell, and I came up with what I believe to be a very interesting description of a program:
data Program m = Instruction (m ()) (Program m) | Control (m (Program m)) | Halt
However, it's tricky to parse a textual representation of a brainfuck program into this data type. The problem arises with trying to correctly parse square brackets, because there is some knot-tying to do so that the final
Instruction inside a loop links to the loop's
A bit more preliminary information. See this version on the github repo for all the details.
type TapeM = StateT Tape IO type TapeP = Program TapeM type TapeC = Cont TapeP branch :: Monad m => m Bool -> Program m -> Program m -> Program m branch cond trueBranch falseBranch = Control ((\b -> if b then trueBranch else falseBranch) `liftM` cond) loopControl :: TapeP -> TapeP -> TapeP loopControl = branch (not <$> is0)
Here's what I tried:
toProgram :: String -> TapeP toProgram = (`runCont` id) . toProgramStep liftI :: TapeM () -> String -> TapeC TapeP liftI i cs = Instruction i <$> toProgramStep cs toProgramStep :: String -> TapeC TapeP toProgramStep ('>':cs) = liftI right cs -- similarly for other instructions toProgramStep ('[':cs) = push (toProgramStep cs) toProgramStep (']':cs) = pop (toProgramStep cs) push :: TapeC TapeP -> TapeC TapeP push mcontinue = do continue <- mcontinue cont (\breakMake -> loopControl continue (breakMake continue)) pop :: TapeC TapeP -> TapeC TapeP pop mbreak = do break <- mbreak cont (\continueMake -> loopControl (continueMake break) break)
I figured I could somehow use continuations to communicate information from the
'[' case to the
']' case and vice-versa, but I don't have a firm enough grasp of Cont to actually do anything besides assemble wild guesses of something that looks like it might work, as seen above with
pop. This compiles and runs, but the results are garbage.
Cont be used to tie the knot appropriately for this situation? If not, then what technique should I use to implement
Note 1: I previously had a subtle logic error:
loopControl = branch is0 had the Bools reversed.
Note 2: I managed to use
MonadFix (as suggested by jberryman) with
State to come up with a solution (see the current state of the github repository). I'd still like to know how this could be done with
Note 3: My Racketeer mentor put a similar Racket program together for me (see all revisions). Can his pipe/pipe-out technique be translated into Haskell using
tl;dr I managed to do this using MonadFix, and someone else managed to do it using Racket's continuation combinators. I'm pretty sure this can be done with
Cont in Haskell. Can you show me how?