Derive Storable instances with GHC.Generics.
Derive Storable instances with GHC.Generics. The derived Storable instances have the same alignment as C structs.
Introduction
The derive-storable package allows you to automatically generate Storable instances for your datatypes. It uses GHC.Generics, which allows the coders to derive certain instances automatically. To derive a (G)Storable instance, the data-type has to:
have only one constructorThere is now asumtypesoption for data-types with multiple constructors. See Sum types section for more.- all fields of the constructor need to be GStorable.
- implement a Generic instance (
derive (Generic))
Sum types
To enable support for sum types, add a -f sumtypes option to cabal new-build or cabal new-configure. The library discerns between sum and non-sum types. Non-sum types have the same memory layout as C structs, while sum types correspond to tagged unions:
struct datatype {
unsigned char tag;
union {
constructor1 a;
constructor2 b;
...
} val;
};
Note - while it is possible to have an instance for a self/mutually recursive data-type, using methods for the data-type will result in infinite loop. So there is no support for recursion in data-types.
Note on performance
There are some problems with performance of derived Storable instances. For now there exists a solution in form of GHC Core plugin - derive-storable-plugin.
Usage
Here's an example:
{-# LANGUAGE DeriveGeneric #-}
import Foreign.Storable
import Foreign.Storable.Generic
import Foreign.Ptr
import Foreign.Marshal.Alloc
import Generics.Deriving
data Position = Position {
x :: Double,
y :: Double
} deriving (Show,Read, Generic)
instance GStorable Position
updatePosition :: Ptr Position -> Position -> IO ()
updatePosition ptr pos = poke ptr pos
main = do
let val = Position 0.0 10.0
ptr <- malloc :: IO (Ptr Position)
putStrLn "Created a ptr with value of"
putStrLn =<< show <$> peek ptr
updatePosition ptr val
putStrLn "And now the value of ptr is:"
putStrLn =<< show <$> peek ptr