20

I was trying to figure out how mVars work, and I came across this bit of code:

-- |Create an 'MVar' which is initially empty.
newEmptyMVar  :: IO (MVar a)
newEmptyMVar = IO $ \ s# ->
    case newMVar# s# of
         (# s2#, svar# #) -> (# s2#, MVar svar# #)

Besides being confusingly mutually recursive with newMVar, it's also littered with hashs (#).

Between the two, I can't figure out how it works. I know that this is basically just a pseudo-constructor for mVar, but the rest of the module (most of the library actually) contains them, and I can't find anything on them. Googling "Haskell hashs" didn't yield anything relevant.

1 Answer 1

23

They're (literally) magic hashes. They distinguish GHC's primitive's like addition, unboxed types, and unboxed tuples. You can enable writing them with

{-# LANGUAGE MagicHash #-}

Now you can import the stubs that let you use them with

import GHC.Exts

unboxed :: Int# -> Int# -> Int#
unboxed a# b# = a# +# b#

boxed :: Int -> Int -> Int
boxed (I# a#) (I# b#) = I# (unboxed a# b#)

This actually is kinda nifty when you think about it, by wrapping the magical and strict primitives like this, we can handle lazy Ints and Chars uniformly at the runtime system level.

Because primitives are not boxed, they're segregated at the kind level. This means that Int# doesn't have the kind * like normal types, which also means something like

kindClash :: Int# -> Int#
kindClash = id -- id expects boxed types

Won't compile.

To further elaborate on your code, newMVar includes a call to a compiler primitive in GHC to allocate a new mutable variable. It's not mutually recursive so much as a thin wrapper over a compiler call. There's also some darkness gathering at the corners of this function since we're treating IO as a perverse state monad, but let's not look to closely at that. I like my sanity too much.

I don't use primitives in everyday code, nor should you. They come up when implementing crazy optimized hotspots, or near primitive abstractions like what you're looking at.

7
  • Thank you. So for my purposes in understanding library snippets, I can essentially ignore them and just think about the types that they're associated with? Oct 2, 2014 at 21:53
  • 1
    @Carcigenicate Pretty much, yeah.
    – bheklilr
    Oct 2, 2014 at 21:55
  • @Carcigenicate I would say so, you can read the documentation for the primitives if you're really curious, I don't think you'd gain a ton from them however. Oct 2, 2014 at 21:56
  • Thanks. And would it be possible for you to elaborate on the "thin wrapper" comment? I don't understand. As I see it, it involves 2 functions that call each other without any terminating cases. Why doesn't it loop forever? Is there something built into GHC that specifically handles MVar, which makes the code behave differently then "it should"? Oct 2, 2014 at 21:59
  • 2
    @Carcigenicate, newMVar and newMVar# are different functions. newEmptyMVar calls newMVar#, not newMVar. As for the wrapper thing, basically there's a primop, newMVar#, and then a little wrapper function, newEmptyMVar, that does boxing and unboxing and calls the underlying primop newMVar# to do the real work.
    – dfeuer
    Oct 2, 2014 at 22:04

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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