{-# LANGUAGE CPP #-} {-# LANGUAGE RankNTypes #-} ----------------------------------------------------------------------------- -- | -- Module : Data.Array.ST -- Copyright : (c) The University of Glasgow 2001 -- License : BSD-style (see the file libraries/base/LICENSE) -- -- Maintainer : [email protected] -- Stability : experimental -- Portability : non-portable (uses Data.Array.MArray) -- -- Mutable boxed and unboxed arrays in the 'Control.Monad.ST.ST' monad. -- ----------------------------------------------------------------------------- module Data.Array.ST ( -- * Boxed arrays STArray, -- instance of: Eq, MArray runSTArray, -- * Unboxed arrays STUArray, -- instance of: Eq, MArray runSTUArray, -- * Overloaded mutable array interface module Data.Array.MArray, ) where import Data.Array.Base ( STUArray, UArray, unsafeFreezeSTUArray ) import Data.Array.MArray import Control.Monad.ST ( ST, runST ) import GHC.Arr ( STArray, Array, unsafeFreezeSTArray ) -- | A safe way to create and work with a mutable array before returning an -- immutable array for later perusal. This function avoids copying -- the array before returning it - it uses 'unsafeFreeze' internally, but -- this wrapper is a safe interface to that function. -- #if __GLASGOW_HASKELL__ >= 711 runSTArray :: (forall s . ST s (STArray s i e)) -> Array i e #else runSTArray :: Ix i => (forall s . ST s (STArray s i e)) -> Array i e #endif runSTArray st = runST (st >>= unsafeFreezeSTArray) -- | A safe way to create and work with an unboxed mutable array before -- returning an immutable array for later perusal. This function -- avoids copying the array before returning it - it uses -- 'unsafeFreeze' internally, but this wrapper is a safe interface to -- that function. -- #if __GLASGOW_HASKELL__ >= 711 runSTUArray :: (forall s . ST s (STUArray s i e)) -> UArray i e #else runSTUArray :: Ix i => (forall s . ST s (STUArray s i e)) -> UArray i e #endif runSTUArray st = runST (st >>= unsafeFreezeSTUArray) -- INTERESTING... this is the type we'd like to give to runSTUArray: -- -- runSTUArray :: (Ix i, IArray UArray e, -- forall s. MArray (STUArray s) e (ST s)) -- => (forall s . ST s (STUArray s i e)) -- -> UArray i e -- -- Note the quantified constraint. We dodged the problem by using -- unsafeFreezeSTUArray directly in the defn of runSTUArray above, but -- this essentially constrains us to a single unsafeFreeze for all STUArrays -- (in theory we might have a different one for certain element types).