Interpreter.hs revision 44eca622a16639b4a1a3d4fd088c7c3bfff89b8e
{-# LANGUAGE FunctionalDependencies, FlexibleInstances, FlexibleContexts
, UndecidableInstances, OverlappingInstances, MultiParamTypeClasses
, TypeSynonymInstances, ExistentialQuantification #-}
{- |
Module : $Header$
Description : Interpreter for CPL programs
Copyright : (c) Ewaryst Schulz, DFKI Bremen 2010
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Ewaryst.Schulz@dfki.de
Stability : experimental
Portability : non-portable (various glasgow extensions)
Defines an interface for Calculators used to evaluate CPL programs
-}
module CSL.Interpreter where
import Control.Monad (liftM, forM_, filterM, unless)
import Control.Monad.State (StateT, MonadState (..))
import Control.Monad.Trans (MonadTrans (..), MonadIO (..))
import Data.Maybe
import qualified Data.Map as Map
import qualified Data.IntMap as IMap
import Data.List (mapAccumL)
import Prelude hiding (lookup)
import Common.ResultT
import Common.Doc
import Common.DocUtils
import CSL.AS_BASIC_CSL
-- ----------------------------------------------------------------------
-- * Evaluator
-- ----------------------------------------------------------------------
-- ** some general lifted instances
-- TODO: outsource them
instance (MonadState s m, MonadTrans t, Monad (t m)) => MonadState s (t m) where
get = lift get
put = lift . put
instance (MonadIO m, MonadTrans t, Monad (t m)) => MonadIO (t m) where
liftIO = lift . liftIO
instance (MonadResult m, MonadTrans t, Monad (t m)) => MonadResult (t m) where
liftR = lift . liftR
-- ** Some utility classes for abstraction of concrete realizations
-- | Abstraction from lists, sets, etc. for some simple operations
class SimpleMember a b | a -> b where
member :: b -> a -> Bool
count :: a -> Int
toList :: a -> [b]
-- ** Abstraction wrapper for utility classes
data SMem b = forall a. SimpleMember a b => SMem a
-- ** Instances for abstraction wrapper
instance SimpleMember (SMem b) b where
member x (SMem a) = member x a
count (SMem a) = count a
toList (SMem a) = toList a
-- | Calculation interface, bundles the evaluation engine and the
-- assignment store
class (Monad m) => AssignmentStore m where
assign :: ConstantName -> AssDefinition -> m ()
lookup :: ConstantName -> m (Maybe EXPRESSION)
names :: m (SMem ConstantName)
eval :: EXPRESSION -> m EXPRESSION
check :: EXPRESSION -> m Bool
check = error "AssignmentStore-default: 'check' not implemented."
values :: m [(ConstantName, EXPRESSION)]
values = let f x = do
v <- lookup x
return (x, fromJust v)
in names >>= mapM f . toList
instance AssignmentStore m => AssignmentStore (StateT s m) where
assign s = lift . assign s
lookup = lift . lookup
names = lift names
eval = lift . eval
check = lift . check
values = lift values
isDefined :: AssignmentStore m => ConstantName -> m Bool
isDefined s = liftM (member s) names
evaluate :: AssignmentStore m => CMD -> m ()
evaluate (Ass (Op (OpUser n) [] l _) e) =
assign n $ mkDefinition (toArgList l) e
evaluate (Cond l) = do
cl <- filterM (check . fst) l
if null cl
then error "evaluate: non-exhaustive conditional"
else evaluateList $ snd $ head cl
evaluate (Repeat e l) =
let f = do
-- first run of the repeat loop
evaluateList l
b <- check e
-- repeat f until condition holds
unless b f
in f
evaluate (Sequence l) = evaluateList l
evaluate (Cmd c _) = error $ "evaluate: unsupported command " ++ c
evaluate a@(Ass (Op (OpId _) _ _ _) _) =
error $ concat [ "evaluate: predefined constants in left hand side of "
, "assignment not allowed ", show a ]
evaluate a@(Ass _ _) = error $ "evaluate: unsupported assignment " ++ show a
evaluateList :: AssignmentStore m => [CMD] -> m ()
evaluateList l = forM_ l evaluate
loadAS :: AssignmentStore m => [(ConstantName, AssDefinition)] -> m ()
loadAS [] = return ()
loadAS ((cn, assd):l) = loadAS l >> assign cn assd
-- ----------------------------------------------------------------------
-- * Term translator
-- ----------------------------------------------------------------------
-- | A data structure for invertible maps, with automatic new key generation
-- and insertion at lookup
data BMap = BMap { mThere :: Map.Map ConstantName Int
, mBack :: IMap.IntMap ConstantName
, newkey :: Int
, prefix :: String
, defaultMap :: BMapDefault OPID }
deriving Show
data BMapDefault a = BMapDefault { mThr :: Map.Map a String
, mBck :: Map.Map String a }
instance Show a => Show (BMapDefault a) where
show _ = "BMapDefault"
instance SimpleMember BMap ConstantName where
member k = Map.member k . mThere
count = Map.size . mThere
toList = Map.keys . mThere
-- ** Interface functions for BMapDefault
fromList :: Ord a => [(a, String)] -> BMapDefault a
fromList l = let f (x, y) = (y, x)
in BMapDefault (Map.fromList l) $ Map.fromList $ map f l
defaultLookup :: Ord a => BMapDefault a -> a -> Maybe String
defaultLookup bmd s = Map.lookup s $ mThr bmd
defaultRevlookup :: BMapDefault a -> String -> Maybe a
defaultRevlookup bmd s = Map.lookup s $ mBck bmd
-- ** Interface functions for BMap
empty :: BMap
empty = BMap Map.empty IMap.empty 1 "x" $ fromList []
initWithDefault :: [(OPNAME, String)] -> BMap
initWithDefault l =
let f (x, y) = (OpId x, y)
in BMap Map.empty IMap.empty 1 "x" $ fromList $ map f l
-- | The only way to also insert a value is to use lookup. One should not
-- insert values explicitly. Note that you don't control the inserted value.
-- For (Left "...") we throw an error if this value is in the defaultMap,
-- for (Right (OpId ...)) we throw an error if it isn't.
lookupOrInsert :: BMap
-> Either ConstantName OPID -- ^ If you provide a 'ConstantName'
-- it is interpreted as an OpUser
-> (BMap, String)
lookupOrInsert m k =
let err pc = error $ "lookupOrInsert: predefined constant encountered "
++ show pc
(k', c, isL, isOpName) = case k of
Left s -> (OpUser s, s, True, False)
Right oi@(OpId _) -> (oi, err oi, False, True)
Right os@(OpUser x) -> (os, x, False, False)
in
case defaultLookup (defaultMap m) k' of
Just s -> if isL
then error $ "lookupOrInsert: default functions should be "
++ "passed in as OPIDs but got the constant " ++ show c
else (m, s)
_ -> let f _ _ x = x
nv = newkey m
(mNv', nm) = Map.insertLookupWithKey f c nv $ mThere m
-- first check for default symbols
in if isOpName
then error $ "lookupOrInsert: OPNAMEs should be registered in the"
++ " default mapping but could not find " ++ show k'
else case mNv' of
Just nv' -> (m, bmapIntToString m nv')
_ -> (m { mThere = nm
, mBack = IMap.insert nv c $ mBack m
, newkey = nv + 1 }
, bmapIntToString m nv)
revlookup :: BMap -> String -> OPID
revlookup m k =
case defaultRevlookup (defaultMap m) k of
Just s -> s
_ -> let i = bmapStringToInt m k
err = error $ "revlookup: No reverse mapping for " ++ k
in OpUser $ IMap.findWithDefault err i $ mBack m
bmToList :: BMap -> [(ConstantName, String)]
bmToList m = let prf = prefix m
f (x, y) = (x, prf ++ show y)
in map f $ Map.toList $ mThere m
-- ** Internal functions for BMap
bmapIntToString :: BMap -> Int -> String
bmapIntToString m i = prefix m ++ show i
bmapStringToInt :: BMap -> String -> Int
bmapStringToInt m s = let prf = prefix m
(prf', n) = splitAt (length prf) s
in if prf == prf' then read n
else error $ concat [ "bmapStringToInt: invalid string"
, " for prefix ", prf, ":", s ]
-- ** Translation functions for (generic) BMaps
-- | Translate EXPRESSION into a CAS compatible form
translateEXPRESSION :: BMap -> EXPRESSION -> (BMap, EXPRESSION)
translateEXPRESSION m (Op oi epl el rg) =
let (m', el') = mapAccumL translateEXPRESSION m el
(m'', s) = lookupOrInsert m' $ Right oi
in (m'', Op (OpUser $ SimpleConstant s) epl el' rg)
translateEXPRESSION m (List el rg) =
let (m', el') = mapAccumL translateEXPRESSION m el
in (m', List el' rg)
translateEXPRESSION m e = (m, e)
-- | Retranslate CAS EXPRESSION back, we do not allow OPNAMEs as OpIds
revtranslateEXPRESSION :: BMap -> EXPRESSION -> EXPRESSION
revtranslateEXPRESSION m (Op (OpUser c) epl el rg) =
case c of
SimpleConstant s ->
let el' = map (revtranslateEXPRESSION m) el
oi = revlookup m s
in Op oi epl el' rg
_ -> error $ "revtranslateEXPRESSION: elim constants on CAS side not"
++ " supported " ++ show c
revtranslateEXPRESSION m (List el rg) =
let el' = map (revtranslateEXPRESSION m) el
in List el' rg
revtranslateEXPRESSION _ e = e
-- ** Pretty printing of BMap
-- (Pretty a, Pretty b) =>
-- pm = ppMap pa text braces vcat printMapping
printMapping :: Doc -> Doc -> Doc
printMapping x y = x <+> mapsto <+> y
printBMapDefault :: (a -> Doc) -> BMapDefault a -> Doc
printBMapDefault pa bm =
ppMap pa text box vcat printMapping $ mThr bm where
box = (text "BMapDefault" $+$) . braces
printBMap :: BMap -> Doc
printBMap bm =
braces $ text "BMap" $+$ md $++$ mdefault
where
md = printMap braces vcat printMapping $ mThere bm
mdefault = printBMapDefault pretty $ defaultMap bm
instance Pretty a => Pretty (BMapDefault a) where
pretty = printBMapDefault pretty
instance Pretty BMap where
pretty = printBMap