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Good day!

The core of my project is written inside ST monad and I am trying to add some features that were implemented in C. I've implemented the FFI for all functions that I need:

foreign import ccall unsafe "codec/encode.h encode_symbol"
    encodeSymbol :: Ptr EncodingEnv
                 -> CShort            -- symbol to encode
                 -> Ptr Context
                 -> IO ()

Both Context and EncodingEnv are modified inside the C routine. I have working Storable instances for both EncodingEnv and Context. The simple main test program works well.

Nonetheless, all of the code that need to call these C routines lays inside the ST monad. I need to store these Ptrs to EncodingEnv and to Context somewhere.

How should I deal with long-lived mutable C structures inside the ST monad and how do I call these C routines? My suggestion is to use STRef (Foreign?Ptr Context), but how do I malloc these pointers from ST? I fail to find it in any examples or tutorials.

Thank you

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1  
You use unsafeIOtoST : hackage.haskell.org/package/base-4.6.0.1/docs/… (note: unsafe means VERY unsafe. this should be a last resort) – user2407038 Jan 5 '14 at 20:54
up vote 3 down vote accepted

The ST monad is really intended for working with Haskell-allocated state like STRef and STArray.

If the things you want to call out to don't have externally visible side-effects and just manipulate the structures you'll be passing them, it's probably "morally" ok to use unsafeIOToST to call them.

You'll need to take care that you don't let your pointers escape the specific ST computation they are used in as you won't get the normal safety benefits guaranteed by the phantom s parameter to ST.

Using STRef (ForeignPtr ...) won't really help in itself, but perhaps you might use a newtype wrapper that uses the phantom type parameter s to give a little extra self-imposed safety.

share|improve this answer
    
C routines do not perform any "side" effects indeed rather than modification of provided data; so, I'll try to use unsafeIOToST function. Will ptr <- usafeIOToST mallocForeignPtr work well or will the finalizer screw up? Thank you for your answer, I'll accept it as soon as I'll get a working prototype of that. – ownclo Jan 5 '14 at 21:03
1  
You should call unsafeIOtoST . finalizeForeignPtr as well. Even better: isolate your memory/ffi operations, do them in IO and then call unsafeIOtoST on that entire function, instead of calling it multiple times. Also, unsafeIOtoST is safe even if your functions have visible side effects, as long as those side effects are fully contained in the resulting ST thread. – user2407038 Jan 5 '14 at 21:21
    
Thanks! I will try to isolate the whole part into a single IO action, but it is highly probable that I'll need to interleave C calls with existent ST actions. In that case, if I need to call finalizeForeignPtr anyway, why don't I use bare malloc and free? – ownclo Jan 5 '14 at 21:45
    
If you use newForeignPtr you can't guarantee the finalizer will be run if you use unsafeIOtoST. You may not need to run the finalizer. If you only use mallocForeignPtr there should be no finalizers to run. Besides, ForeignPtr is optimized compared to just Ptr – user2407038 Jan 6 '14 at 1:26
    
@user2407038: why do you say that unsafeIOtoST would interfere with a ForeignPtr finalizer? I do not see any way that would cause a problem. – John L Jan 6 '14 at 5:30

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