ConsistencyCheck.hs revision e9458b1a7a19a63aa4c179f9ab20f4d50681c168
{- |
Module : ./Proofs/ConsistencyCheck.hs
Description : devGraph rule that calls consistency checker for specific logics
Copyright : (c) C. Maeder DFKI GmbH 2010
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Christian.Maeder@dfki.de
Stability : provisional
Portability : non-portable(Logic)
devGraph rule that calls consistency checker for specific logics
-}
module Proofs.ConsistencyCheck
( consistencyCheck
, SType (..)
, ConsistencyStatus (..)
, cStatusToColor
, cStatusToPrefix
, cInvert
, basicProofToConStatus
, getConsistencyOf
) where
import Static.GTheory
import Static.DevGraph
import Static.DgUtils (ConsStatus (..))
import Static.PrintDevGraph ()
import Static.ComputeTheory
import Proofs.AbstractState
import Proofs.FreeDefLinks
import Common.DocUtils (showDoc)
import Common.ExtSign
import Common.LibName
import Common.Result
import Common.AS_Annotation
import Common.Consistency (Conservativity (..))
import Common.Utils (timeoutSecs)
import Logic.Logic
import Logic.Prover
import Logic.Grothendieck
import Logic.Comorphism
import Logic.Coerce
import Data.Graph.Inductive.Graph
import Data.Time.LocalTime (timeToTimeOfDay)
import Data.Time.Clock (secondsToDiffTime)
import Data.Ord (comparing)
data SType = CSUnchecked
| CSTimeout
| CSError
| CSInconsistent
| CSConsistent
deriving (Eq, Ord, Show)
data ConsistencyStatus = ConsistencyStatus { sType :: SType
, sMessage :: String }
instance Show ConsistencyStatus where
show cs = case sType cs of
CSUnchecked -> "Unchecked"
_ -> sMessage cs
instance Eq ConsistencyStatus where
(==) cs1 cs2 = compare cs1 cs2 == EQ
instance Ord ConsistencyStatus where
compare = comparing sType
cStatusToColor :: ConsistencyStatus -> String
cStatusToColor s = case sType s of
CSUnchecked -> "black"
CSConsistent -> "green"
CSInconsistent -> "red"
CSTimeout -> "blue"
CSError -> "darkred"
cStatusToPrefix :: ConsistencyStatus -> String
cStatusToPrefix s = case sType s of
CSUnchecked -> "[ ] "
CSConsistent -> "[+] "
CSInconsistent -> "[-] "
CSTimeout -> "[t] "
CSError -> "[f] "
cInvert :: ConsistencyStatus -> ConsistencyStatus
cInvert cs = case sType cs of
CSConsistent -> ConsistencyStatus CSInconsistent (sMessage cs)
CSInconsistent -> ConsistencyStatus CSConsistent (sMessage cs)
_ -> cs
{- converts a GTheory.BasicProof to ConsistencyStatus.
The conversion is not exact, but sufficient since this function is only
implemented in GtkDisprove for proper display of goalstatus.
-}
basicProofToConStatus :: BasicProof -> ConsistencyStatus
basicProofToConStatus bp = ConsistencyStatus (basicProofToSType bp) ""
basicProofToSType :: BasicProof -> SType
basicProofToSType bp = case bp of
BasicProof _ st -> case goalStatus st of
Disproved -> CSInconsistent
_ -> CSUnchecked
_ -> CSUnchecked
-- roughly transform the nodes consStatus into ConsistencyStatus
getConsistencyOf :: DGNodeLab -> ConsistencyStatus
getConsistencyOf n = case getNodeConsStatus n of
ConsStatus _ pc thmls ->
let t = showDoc thmls "" in case pc of
Inconsistent -> ConsistencyStatus CSInconsistent t
Cons -> ConsistencyStatus CSConsistent t
_ -> ConsistencyStatus CSUnchecked t
{- TODO instead of LibEnv.. get FreeDefs as Input. create wrapper that calcs
FreeDefs from LibEnv, DGraph and LibName (so that the call remains the same).
-}
consistencyCheck :: Bool -> G_cons_checker -> AnyComorphism -> LibName -> LibEnv
-> DGraph -> LNode DGNodeLab -> Int -> IO ConsistencyStatus
consistencyCheck includeTheorems (G_cons_checker lid4 cc) (Comorphism cid) ln
le dg (n', lbl) t'' = do
let lidS = sourceLogic cid
lidT = targetLogic cid
thName = libToFileName ln ++ "_" ++ getDGNodeName lbl
t' = timeToTimeOfDay $ secondsToDiffTime $ toInteger t''
ts = TacticScript $ if ccNeedsTimer cc then "" else show t''
mTimeout = "No results within: " ++ show t'
case do
(G_theory lid1 _ (ExtSign sign _) _ axs _) <- getGlobalTheory lbl
let namedSens = toNamedList axs
sens = if includeTheorems then
map (\ s -> s { isAxiom = True }) namedSens
else namedSens
bTh'@(sig1, _) <- coerceBasicTheory lid1 lidS "" (sign, sens)
(sig2, sens2) <- wrapMapTheory cid bTh'
incl <- subsig_inclusion lidT (empty_signature lidT) sig2
return (sig1, TheoryMorphism
{ tSource = emptyTheory lidT
, tTarget = Theory sig2 $ toThSens sens2
, tMorphism = incl }) of
Result ds Nothing ->
return $ ConsistencyStatus CSError $ unlines $ map diagString ds
Result _ (Just (sig1, mor)) -> do
cc' <- coerceConsChecker lid4 lidT "" cc
let gfreeDMs = getCFreeDefMorphs le ln dg n'
freeDMs <- mapM (\ (GFreeDefMorphism fdlid fd) ->
coerceFreeDefMorphism fdlid lidT "" fd) gfreeDMs
ret <- (if ccNeedsTimer cc then timeoutSecs t''
else ((return . Just) =<<))
(ccAutomatic cc' thName ts mor freeDMs)
return $ case ret of
Just ccStatus -> case ccResult ccStatus of
Just b -> if b then let
Result ds ms = extractModel cid sig1 $ ccProofTree ccStatus
msgLines = map diagString ds ++ lines (show $ ccProofTree ccStatus)
in case ms of
Nothing -> ConsistencyStatus CSConsistent $ unlines
("consistent, but could not reconstruct a model" : msgLines)
Just (sig3, sens3) -> let
thTxt = showDoc
(G_theory lidS Nothing (mkExtSign sig3) startSigId
(toThSens sens3) startThId) ""
in ConsistencyStatus CSConsistent $
case filterDiags 2 ds of
[] -> thTxt
_ -> unlines $ lines thTxt ++ "%[" : msgLines ++ ["]%"]
else ConsistencyStatus CSInconsistent $ show (ccProofTree ccStatus)
Nothing -> if ccUsedTime ccStatus >= t' then
ConsistencyStatus CSTimeout mTimeout
else ConsistencyStatus CSError $ show (ccProofTree ccStatus)
Nothing -> ConsistencyStatus CSTimeout mTimeout