Analysis.hs revision e9458b1a7a19a63aa4c179f9ab20f4d50681c168
{- |
Module : ./CSL/Analysis.hs
Description : Static Analysis for EnCL
Copyright : (c) Dominik Dietrich, Ewaryst Schulz, DFKI Bremen 2010
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Ewaryst.Schulz@dfki.de
Stability : experimental
Portability : portable
Static Analysis for EnCL
-}
module CSL.Analysis where
import Common.ExtSign
import Common.AS_Annotation
import Common.Id
import Common.Result
-- import Common.ResultT
import Common.Utils (mapAccumLM)
import CSL.AS_BASIC_CSL
import CSL.Symbol
-- import CSL.Fold
import CSL.Sign as Sign
-- import Control.Monad.State
-- import qualified Data.Map as Map
import qualified Data.Set as Set
-- import Data.List
import Data.Maybe
-- * Basic Analysis Functions
-- | generates a named formula
withName :: Annoted CMD -> Int -> Named CMD
withName f i = (makeNamed (if label == "" then "Ax_" ++ show i
else label) $ item f)
{ isAxiom = not isTheorem }
where
label = getRLabel f
annos = r_annos f
isImplies' = foldl (\ y x -> isImplies x || y) False annos
isImplied' = foldl (\ y x -> isImplied x || y) False annos
isTheorem = isImplies' || isImplied'
{- | takes a signature and a formula and a number.
It analyzes the formula and returns a formula with diagnosis -}
analyzeFormula :: Sign.Sign -> Annoted CMD -> Int -> Result (Named CMD)
analyzeFormula _ f i =
return $ withName f i
-- | Extracts the axioms and the signature of a basic spec
splitSpec :: BASIC_SPEC -> Sign.Sign -> Result (Sign.Sign, [Named CMD])
splitSpec (Basic_spec specitems) sig =
do
((newsig, _), mNCmds) <- mapAccumLM anaBasicItem (sig, 0) specitems
return (newsig, catMaybes mNCmds)
{- | Add a single basic item to the signature. EP_defvals cannot be added if
the corresponding EP_decl is not yet defined.
-}
anaBasicItem :: (Sign.Sign, Int) -> Annoted BASIC_ITEM
-> Result ((Sign.Sign, Int), Maybe (Named CMD))
anaBasicItem (sign, i) itm =
case item itm of
Op_decl (Op_item tokens _) -> return ((addTokens sign tokens, i), Nothing)
Var_decls l -> return ((addVarDecls sign l, i), Nothing)
EP_decl l -> return ((addEPDecls sign l, i), Nothing)
EP_domdecl l -> return ((addEPDomDecls sign l, i), Nothing)
EP_defval l -> return ((addEPDefVals sign l, i), Nothing)
Axiom_item annocmd ->
do
ncmd <- analyzeFormula sign annocmd i
return ((sign, i + 1), Just ncmd)
-- | adds the specified tokens to the signature
addTokens :: Sign.Sign -> [Token] -> Sign.Sign
addTokens sign tokens = let f res itm = addToSig res itm
$ optypeFromArity 0
in foldl f sign tokens
-- | adds the specified var items to the signature
addVarDecls :: Sign.Sign -> [VAR_ITEM] -> Sign.Sign
addVarDecls = const
{-
addVarDecls sign vitems = foldl f sign vitems where
f res (Var_item toks dom _) = addVarItem res toks dom
-}
addEPDecls :: Sign.Sign -> [(Token, EPDomain)] -> Sign.Sign
addEPDecls = addPairsToSig addEPDeclToSig
addEPDomDecls :: Sign.Sign -> [(Token, APInt)] -> Sign.Sign
addEPDomDecls = addPairsToSig addEPDomVarDeclToSig
addEPDefVals :: Sign.Sign -> [(Token, APInt)] -> Sign.Sign
addEPDefVals = addPairsToSig addEPDefValToSig
addPairsToSig :: (Sign.Sign -> a -> b -> Sign.Sign)
-> Sign.Sign -> [(a, b)] -> Sign.Sign
addPairsToSig f = foldl g where
g s' = uncurry $ f s'
{- | stepwise extends an initially empty signature by the basic spec bs.
The resulting spec contains analyzed axioms in it. The result contains:
(1) the basic spec
(2) the new signature + the added symbols
(3) sentences of the spec
-}
basicCSLAnalysis :: (BASIC_SPEC, Sign, a)
-> Result (BASIC_SPEC, ExtSign Sign Symbol, [Named CMD])
basicCSLAnalysis (bs, sig, _) =
do
(newSig, ncmds) <- splitSpec bs sig
let newSyms = Set.map Symbol $ opIds $ sigDiff newSig sig
return (bs, ExtSign newSig newSyms, ncmds)
{-
-- * Alternative Basic Analysis
data AnaEnv = AnaEnv
{ aVarDecls :: Map.Map Token Domain
, aEPConsts :: Map.Map Token EP_const
, aEPDecls :: Map.Map Token EP_item
, aCommands :: Map.Map Int (Named CMD)
, aCounter :: Int
}
emptyAnaEnv :: AnaEnv
emptyAnaEnv = AnaEnv
{ aVarDecls = Map.empty
, aEPConsts = Map.empty
, aEPDecls = Map.empty
, aCommands = Map.empty
, aCounter = 0
}
tTT :: CMD -> CMD
tTT c = foldCMD myrec c where
myrec = passAllRecord { foldVar = \ _ _ -> Var $ mkSimpleId "X" }
type Analysis a = ResultT (State AnaEnv) a
-- data VAR_ITEM = Var_item [Id.Token] Domain Id.Range
anaVarDecl :: VAR_ITEM -> Analysis ()
anaVarDecl (Var_item l dom rg) = error ""
{- data EPComponent = EPDomain Id.Token EPDomain |
EPDefault Id.Token APInt |
EPConst Id.Token APInt -}
anaEPComp :: EPComponent -> Analysis ()
anaEPComp (EPDomain n dom) = addEPDomain n dom
anaEPComp (EPDefault n i) = addEPDefault n i
anaEPComp (EPConst n i) = addEPConst n i
anaAxiom :: Annoted CMD -> Analysis ()
anaAxiom = error ""
anaBasicItem' :: Annoted BASIC_ITEM -> Analysis ()
anaBasicItem' itm =
case item itm of
Op_decl _ -> return ()
Var_decls l -> mapM_ anaVarDecl l
EP_components l -> mapM_ anaEPComp l
Axiom_item annocmd -> anaAxiom annocmd
-}