## Hot answers tagged monadfix

22

Your Ord instance doesn't work:
instance Ord Node where -- for use in Data.Map
Node a _ < Node b _ = a < b
For a working Ord instance, you must define compare or (<=). If you only define (<), any call to compare or (<=) will loop infinitely since both have default implementations in terms of each other. Also the other members of Ord are ...

14

Forwards traveling state with a continuation monad looks like this:
Cont (fw -> r) a
Then the type of the argument to cont is
(a -> fw -> r) -> fw -> r
So you get a fw passed in from the past which you have to pass on to the continuation.
Backwards traveling state looks like this:
Cont (bw, r) a
Then the type of the argument to cont ...

12

There is no generic way to make an arbitrary monad an instance of MonadFix. The actual code depends on the monad, and it's not even possible for all monads.
You can look at the various monads to see how it's done. And if your monad is in fact State there should already be an instance.

11

The F# computation expression syntax (related to Haskell do) supports recursion:
let rec ones = seq {
yield 1
yield! ones }
This is supported because the computation builder has to support Delay operation in addition to other monadic (or MonadPlus) operations. The code is translated to something like:
let rec ones =
seq.Combine
( seq.Yield(1),
...

11

Consider the description of what mfix does:
The fixed point of a monadic computation. mfix f executes the action f only once, with the eventual output fed back as the input.
The word "executes", in the context of Free, means creating layers of the Functor. Thus, "only once" means that in the result of evaluating mfix f, the values held in Pure ...

7

Regarding the implementation, I would make it a composition of a Reader monad (for the future) and a State monad (for past/present). The reason is that you set your future only once (in tie) and then don't change it.
{-# LANGUAGE DoRec, GeneralizedNewtypeDeriving #-}
import Control.Monad.State
import Control.Monad.Reader
import Control.Applicative
newtype ...

7

I wrote up an article on this topic at entitled Assembly: Circular Programming with Recursive do where I describe two methods for building an assembler using knot tying. Like your problem, an assembler has to be able to resolve address of labels that may occur later in the file.

7

As you can see in the source for the binary package (Data.Binary.Put:71), the data structure used for monadic values is strict in the builder. Since extracting the value from the monad has to force the structure in which the value is found, this will cause an infinite loop if the builder depends on the input.
data PairS a = PairS a !Builder
newtype PutM a ...

5

You can write a MonadFix instance. However, the code will not generate an infinite stream of distinct random numbers. The argument to mfix is a function that calls uniform exactly once. When the code is run, it will call uniform exactly once, and create an infinite list containing the result.
You can try the equivalent IO code to see what happens:
...

5

I've been playing around with stuff, and I think I've come up with something... interesting. I call it the "Seer" monad, and it provides (aside from Monad operations) two primitive operations:
see :: Monoid s => Seer s s
send :: Monoid s => s -> Seer s ()
and a run operation:
runSeer :: Monoid s => Seer s a -> a
The way this monad works ...

4

Well, inspired by the MonadFix instance for Maybe, I tried this one (using the following definitions of Free):
data Free f a
= Pure a
| Impure (f (Free f a))
instance (Functor f) => Monad (Free f) where
return = Pure
Pure x >>= f = f x
Impure x >>= f = Impure (fmap (>>= f) x)
instance (Functor f) => MonadFix ...

4

When Haskell throws a fit, that's usually an indication that you have not thought clearly about a core issue of your problem. In this case, the question is: which evaluation model do you want to use for your language? Call-by-value or call-by-need?
Your representation of environments as [(Var,Value)] suggests that you want to use call-by-value, since every ...

4

Being terribly lazy with this answer since I'm not comfortable with Cont, but is MonadFix perhaps what you're looking for? State is an instance, though not Cont, and it lets you do things that look like (using "recursive do" notation):
{-# LANGUAGE DoRec #-}
parseInst str = do
rec ctl <- parseInstructionsLinkingTo ctl str
This was the solution I ...

3

A question: how do you wish to generate your initial seed?
The problem is that MWS is built on the "primitive" package which abstracts only IO and strict (Control.Monad.ST.ST s). It does not also abstract lazy (Control.Monad.ST.Lazy.ST s).
Perhaps one could make instances for "primitive" to cover lazy ST and then MWS could be lazy.
UPDATE: I can make ...

2

Maybe I'm missing something, but doesn't the following work?
eval env (LetRec bs ex) = eval env' ex
where
env' = env ++ map (\(v, e) -> (v, eval env' e)) bs
For your updated version: What about the following approach? It works as desired on your test case, and doesn't throw away errors in LetRec expressions:
data Value
= ValInt Int
| ValFun ...

1

What you are asking for, is actually a plain fix:
cd :: (Monad m) => Int -> Int -> m Int
cd = fix (\f c i -> if i == 0 then return c else f (c+i) (i-1))
This will repeat the computation, until i becomes 0. (I added c to have a meaningful computation; but you could assume s=(Int,Int) with one of them being a rolling sum and the other the ...

1

No, it cannot be written in general, because not every Monad is an instance of MonadFix.
Every Monad can be implemented using the FreeMonad underneath. If you could implement the MonadFix for Free, then you would be able to derive MonadFix from any Monad, which is not possible.
But of course, you can define a FreeFix for the MonadFix class.
I think it might ...

1

Answering my own question; I wanted to share the final solution I came up with.
As Heinrich correctly pointed out, I didn't really think through the impact the evaluation order has.
In a strict (call-by-value) language, an expression that is already a value (weak head normal form) is different from an expression that still needs some evaluation. Once I ...

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