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I am writing an interpreter for a simple language as a project at university, and there is an option to write in some debugging functionality. I thought this would be simple but after taking a break of about a week due to frustration I have come back to deal with this.

The entire haskell file is about 250 lines so I don't want to post the whole thing, but if I haven't given enough information please let me know.

I have this function

interpret_statement :: Prog -> (Var -> Val -> Vars -> o) -> Vars -> Stmt -> o

where (Var -> Val -> Vars -> o) is a debugging function - one of 2 possibilities that I choose

pure_passthrough :: Var -> Val -> Vars -> Vars -- does no IO
write_debugging_info :: Var -> Val -> Vars -> IO Vars -- does IO

I also have another function

interpret_function :: Prog -> (Var -> Val -> Vars -> o) -> Vars -> [Stmt] -> Val

which contains a line

interpret_function prog debug_function vars (x:xs) = interpret_function prog debug_function (interpret_statement prog debug_function vars x) xs 

and is one of 3 lines that gives me a rigid type error saying that

Expected type: Var -> Val -> Vars -> Vars
Actual type: Var -> Val -> Vars -> o

Everything was working completely fine before trying to introduce IO. I have done it this way due to the answer of a separate question on this site that suggested I use a polymorphic function to tell the program whether to do IO or not at run-time depending on whether I receive a command line argument or not.

But now it causes problems because I have a couple of co-dependent functions that I now need to pass polymorphic variables to and from? Oh the humanity! I really think I'm getting better at Haskell guys but this one has me COMPLETELY stumped. How is the "Actualy type" Var -> Val -> Vars -> o which is polymorphic and not really specific?

Note: If I need to include more information PLEASE let me know - I have started with as little as possible so I don't overload people with unnecessary information

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1 Answer 1

up vote 4 down vote accepted

The call (interpret_statement prog debug_function vars x) is in a position where it must return Vars, it cannot return the type o.

In interpret_function, the return type does not depend on o, so even if you pass in a debug function that returns an IO monad, the result of interpret_function is not an IO monad.

My Haskell is a bit rusty, but I believe you could change interpret_function so that its type becomes

interpret_function :: (Monad m) => Prog -> (Var -> Val -> Vars -> m Vars) -> Vars -> [Stmt] -> m Val

where m will be either IO or some trivial monad (perhaps this one).

Now the implementation of that particular case would go something like this:

interpret_function prog debug_function vars (x:xs) =
  do vars' <- interpret_statement prog debug_function vars x
     return $ interpret_function prog debug_function vars' xs
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@nebffa In this case, it's relatively easy to see that you can't avoid adding the monad: Your function interpret_function is supposed to potentially perform IO, but it does return Val, which is a non-IO type, so it cannot perform any IO with this result type. –  kosmikus Apr 20 '13 at 16:09
Monadic I/O indeed tends to be "contagious". –  mpartel Apr 20 '13 at 16:12
I recommend abstracting over the monad m (instead of an opaque o), and using the do syntax as shown in the answer. –  mpartel Apr 21 '13 at 8:10
@nebffa If, in order to determine the final result of type Vars, IO might have to be performed, then yes, the result has to be of type IO Vars. Regarding structuring your code: parameterizing by o will most likely not be enough, because you have to be explicit about how the order in which potential IO effects occur. So as mpartel says, you should try abstracting over the monad (which can then be instantiated to either IO or Identity). –  kosmikus Apr 21 '13 at 17:21
I probably shouldn't be telling you this, but for quick and dirty temporary debugging print statements, it's possible to use System.IO.Unsafe, which allows you to "escape" the IO monad. I certainly wouldn't leave it in the final product though. It's generally considered very bad practice. Also, it's cheating :) –  mpartel Apr 22 '13 at 3:24

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