{-# LANGUAGE ScopedTypeVariables, RecursiveDo, CPP #-} {-# OPTIONS_GHC -Wall #-} ---------------------------------------------------------------------- -- | -- Module : Data.Unamb -- Copyright : (c) Conal Elliott 2008 -- License : BSD3 -- -- Maintainer : conal@conal.net -- Stability : experimental -- -- Unambiguous choice -- -- For non-flat types (where values may be partially defined, rather than -- necessarily bottom or fully defined) and information merging, see the -- '''lub''' package. ---------------------------------------------------------------------- #include "Typeable.h" module Data.Unamb ( bottom, unamb, assuming, asAgree, hang , amb, race -- * Some useful special applications of 'amb' , parCommute, por, pand ) where import Prelude hiding (catch) import System.IO.Unsafe import Control.Concurrent import Control.Exception (evaluate, BlockedOnDeadMVar(..), catch, throw) -- | Unambiguous choice operator. Equivalent to the ambiguous choice -- operator, but with arguments restricted to be equal where not bottom, -- so that the choice doesn't matter. See also 'amb'. unamb :: a -> a -> a a `unamb` b = unsafePerformIO (a `amb` b) -- | Ambiguous choice operator. Yield either value. Evaluates in -- separate threads and picks whichever finishes first. See also -- 'unamb' and 'race'. amb :: a -> a -> IO a a `amb` b = evaluate a `race` evaluate b -- | Race two actions against each other in separate threads, and pick -- whichever finishes first. See also 'amb'. Thanks to Spencer Janssen -- for this simple version. race :: IO a -> IO a -> IO a a `race` b = do v <- newEmptyMVar ta <- forkIO' (a >>= putMVar v) tb <- forkIO' (b >>= putMVar v) x <- takeMVar v killThread ta killThread tb return x -- Use a particular exception as our representation for waiting forever. -- A thread can bottom-out efficiently by throwing that exception. If both -- threads bail out, then the 'takeMVar' would block. In that case, the -- run-time system would notice and raise 'BlockedOnDeadMVar'. I'd then -- want to convert that exception into the one that wait-forever -- exception. As an expedient hack, I use 'BlockedOnDeadMVar' as the -- wait-forever exception, so that no conversion is needed. Perhaps -- revisit this choice, and define our own exception class, for clarity -- and easier debugging. -- Fork a thread to execute a given action. Silence any raised exceptions. forkIO' :: IO () -> IO ThreadId forkIO' act = forkIO (act `catch` handler) where handler :: BlockedOnDeadMVar -> IO () handler = const (return ()) -- I'd like @hang `unamb` hang@ to quickly terminate, throwing an -- exception. I'm surprised that it doesn't lead to 'BlockedOnDeadMVar'. -- Why doesn't it?? Oh -- maybe it does, when compiled. -- | A 'bottom' value, allowing no information out. A left- and right- -- identity for 'unamb'. At the top level, evaluating 'bottom' results in -- the message "Exception: thread blocked indefinitely". bottom :: a bottom = throw BlockedOnDeadMVar -- {-# DEPRECATED hang "use bottom instead" #-} -- | Never yield an answer. Like 'undefined' or 'error "whatever"', but -- don't raise an error, and don't consume computational resources. hang :: a hang = bottom -- | Yield a value if a condition is true. Otherwise wait forever. assuming :: Bool -> a -> a assuming c a = if c then a else hang -- | The value of agreeing values (or hang) asAgree :: Eq a => a -> a -> a a `asAgree` b = assuming (a == b) a ---- {- import Data.Dynamic -- move up data WaitForever = WaitForever INSTANCE_TYPEABLE0(WaitForever,waitForeverTc,"WaitForever") instance Show WaitForever where showsPrec _ WaitForever = showString "waiting for, like, evar" instance Exception WaitForever -} ---- {-------------------------------------------------------------------- Some useful special applications of 'unamb' --------------------------------------------------------------------} -- | Turn a binary commutative operation into that tries both orders in -- parallel. Useful when there are special cases that don't require -- evaluating both arguments. For non-flat types and information merging, -- see @parCommute@ in the @lub@ package. parCommute :: (a -> a -> b) -> (a -> a -> b) parCommute op x y = (x `op` y) `unamb` (y `op` x) -- | Parallel or por :: Bool -> Bool -> Bool por = parCommute (||) -- | Parallel and pand :: Bool -> Bool -> Bool pand = parCommute (&&) {- -- Examples: bottom `por` True True `por` bottom bottom `pand` False False `pand` bottom -}