XGraph.hs revision e9458b1a7a19a63aa4c179f9ab20f4d50681c168
{-# LANGUAGE DeriveDataTypeable #-}
{- |
Module : ./Static/XGraph.hs
Description : xml input for Hets development graphs
Copyright : (c) Simon Ulbricht, DFKI GmbH 2011
License : GPLv2 or higher, see LICENSE.txt
Maintainer : tekknix@informatik.uni-bremen.de
Stability : provisional
Portability : non-portable (DevGraph)
convert an Xml-Graph into an XGraph-Structure.
-}
module Static.XGraph where
import Static.DgUtils
import Common.AnalyseAnnos (getGlobalAnnos)
import Common.Consistency (Conservativity (..))
import Common.GlobalAnnotations (GlobalAnnos, emptyGlobalAnnos)
import Common.LibName
import Common.Result (Result (..))
import Common.Utils (readMaybe)
import Common.XUpdate (getAttrVal, readAttrVal)
import Control.Monad
import Data.Data
import Data.List
import Data.Maybe (fromMaybe)
import qualified Data.Set as Set
import qualified Data.Map as Map
import Text.XML.Light
{- -------------
Data Types -}
-- represent element information in the order they can be processed later
data XGraph = XGraph { libName :: LibName
, globAnnos :: GlobalAnnos
, nextLinkId :: EdgeId
, thmLinks :: [XLink]
, startNodes :: [XNode]
, xg_body :: XTree }
deriving (Typeable, Data)
{- outer list must be executed in order; inner lists represent all def-links
-node bundles that can be processed in one step -}
type XTree = [[([XLink], XNode)]]
data XNode = XNode { nodeName :: NodeName
, logicName :: String
, symbs :: (Bool, String) -- ^ hidden?
, specs :: String -- ^ Sentences
, nd_cons :: Conservativity }
| XRef { nodeName :: NodeName
, refNode :: String
, refLib :: String
, specs :: String }
deriving (Typeable, Data)
data XLink = XLink { source :: String
, target :: String
, edgeId :: EdgeId
, lType :: DGEdgeType
, rule :: DGRule
, cons :: Conservativity
, prBasis :: ProofBasis
, mr_name :: String
, mr_source :: Maybe String
, mapping :: String }
deriving (Typeable, Data)
instance Show XNode where
show xn = showName (nodeName xn)
instance Show XLink where
show xl = showEdgeId (edgeId xl) ++ ": " ++ source xl ++ " -> " ++ target xl
instance Ord XLink where
compare xl1 xl2 = compare (edgeId xl1, source xl1, target xl1)
(edgeId xl2, source xl2, target xl2)
instance Eq XLink where
a == b = compare a b == EQ
{- ------------
Functions -}
insertXLink :: XLink -> EdgeMap -> EdgeMap
insertXLink l = Map.insertWith (Map.unionWith (++)) (target l)
$ Map.singleton (source l) [l]
mkEdgeMap :: [XLink] -> EdgeMap
mkEdgeMap = foldl (flip insertXLink) Map.empty
xGraph :: Element -> Result XGraph
xGraph xml = do
allNodes <- extractXNodes xml
allLinks <- extractXLinks xml
_ <- foldM (\ s l -> let e = edgeId l in
if Set.member e s then fail $ "duplicate edge id: " ++ show e
else return $ Set.insert e s) Set.empty allLinks
nodeMap <- foldM (\ m n -> let s = showName $ nodeName n in
if Map.member s m then fail $ "duplicate node name: " ++ s
else return $ Map.insert s n m) Map.empty allNodes
let (thmLk, defLk) = partition (\ l -> case edgeTypeModInc $ lType l of
ThmType {} -> True
_ -> False) allLinks
edgeMap = mkEdgeMap defLk
(initN, restN) = Map.partitionWithKey
(\ n _ -> Set.notMember n $ Map.keysSet edgeMap)
nodeMap
tgts = Map.keysSet nodeMap
missingTgts = Set.difference (Map.keysSet edgeMap) tgts
missingSrcs = Set.difference srcs tgts
unless (Set.null missingTgts)
$ fail $ "missing nodes for edge targets " ++ show missingTgts
unless (Set.null missingSrcs)
$ fail $ "missing nodes for edge sources " ++ show missingSrcs
nm <- getAttrVal "libname" xml
fl <- getAttrVal "filename" xml
let ln = setFilePath fl $ emptyLibName nm
ga <- extractGlobalAnnos xml
i' <- fmap readEdgeId $ getAttrVal "nextlinkid" xml
xg <- builtXGraph (Map.keysSet initN) edgeMap restN []
return $ XGraph ln ga i' thmLk (Map.elems initN) xg
-> XTree -> m XTree
else do
when (Map.null xls) $ fail $ "unprocessed nodes: " ++ show (Map.keysSet xns)
when (Map.null xns) $ fail $ "unprocessed links: "
bs = Map.intersectionWith (,) sls xns
when (Map.null bs) $ fail $ "cannot continue with source nodes:\n "
++ "\nfor given nodes: " ++ show ns
builtXGraph (Set.union ns $ Map.keysSet bs) rls
(Map.difference xns bs) $
extractXNodes :: Monad m => Element -> m [XNode]
extractXNodes = mapM mkXNode . findChildren (unqual "DGNode")
extractXLinks :: Monad m => Element -> m [XLink]
extractXLinks = mapM mkXLink . findChildren (unqual "DGLink")
mkXNode :: Monad m => Element -> m XNode
mkXNode el = let spcs = unlines . map strContent
. concatMap (findChildren $ unqual "Text")
$ deepSearch ["Axiom", "Theorem"] el
get f s = f . map strContent . deepSearch [s]
get' = get unlines in do
nm <- extractNodeName el
case findChild (unqual "Reference") el of
Just rf -> do
rfNm <- getAttrVal "node" rf
rfLib <- getAttrVal "library" rf
return $ XRef nm rfNm rfLib spcs
Nothing -> let
hdSyms = case findChild (unqual "Hidden") el of
Nothing -> case findChild (unqual "Declarations") el of
-- Case #1: No declared or hidden symbols
Nothing -> (False, "")
-- Case #2: Node has declared symbols (DGBasicSpec)
Just ch -> (False, get' "Symbol" ch)
-- Case #3: Node has hidden symbols (DGRestricted)
Just ch -> (True, get (intercalate ", ") "Symbol" ch)
in do
lgN <- getAttrVal "logic" el
xp0 <- getAttrVal "relxpath" el
nm0 <- getAttrVal "refname" el
xp1 <- readXPath (nm0 ++ xp0)
return $ XNode nm { xpath = reverse xp1 } lgN hdSyms spcs $ readCons el
extractNodeName :: Monad m => Element -> m NodeName
extractNodeName e = liftM parseNodeName $ getAttrVal "name" e
mkXLink :: Monad m => Element -> m XLink
mkXLink el = do
sr <- getAttrVal "source" el
tr <- getAttrVal "target" el
ei <- extractEdgeId el
tp <- case findChild (unqual "Type") el of
Just tp' -> return $ revertDGEdgeTypeName $ strContent tp'
Nothing -> fail "links type description is missing"
rl <- case findChild (unqual "Rule") el of
Nothing -> return $ DGRule "no rule"
Just r' -> case findChildren (unqual "MovedTheorems") el of
[] -> return $ DGRule $ strContent r'
mThs -> liftM DGRuleLocalInference $ mapM (\ e -> do
nmOld <- getAttrVal "name" e
nmNew <- getAttrVal "renamedTo" e
return (nmOld, nmNew)) mThs
prB <- mapM (getAttrVal "linkref") $ findChildren (unqual "ProofBasis") el
(mrNm, mrSrc) <- case findChild (unqual "GMorphism") el of
Nothing -> fail "Links morphism description is missing!"
Just mor -> do
nm <- getAttrVal "name" mor
return (nm, findAttr (unqual "morphismsource") mor)
let parseSymbMap = intercalate ", " . map ( intercalate " |-> "
. map strContent . elChildren ) . deepSearch ["map"]
prBs = ProofBasis $ foldr (Set.insert . readEdgeId) Set.empty prB
cc = readCons el
return $ XLink sr tr ei tp rl cc prBs mrNm mrSrc $ parseSymbMap el
readCons :: Element -> Conservativity
readCons el = case findChild (unqual "ConsStatus") el of
Nothing -> None
Just c' -> fromMaybe None $ readMaybe $ strContent c'
extractEdgeId :: Monad m => Element -> m EdgeId
extractEdgeId = liftM EdgeId . readAttrVal "XGraph.extractEdgeId" "linkid"
readEdgeId :: String -> EdgeId
readEdgeId = EdgeId . fromMaybe (-1) . readMaybe
-- | custom xml-search for not only immediate children
deepSearch :: [String] -> Element -> [Element]
deepSearch tags e = filtr e ++ concatMap filtr (elChildren e) where
filtr = filterChildrenName (`elem` map unqual tags)
-- | extracts the global annotations from the xml-graph
extractGlobalAnnos :: Element -> Result GlobalAnnos
extractGlobalAnnos dgEle = case findChild (unqual "Global") dgEle of
Nothing -> return emptyGlobalAnnos
Just gl -> parseAnnotations gl
parseAnnotations :: Element -> Result GlobalAnnos
parseAnnotations = getGlobalAnnos . unlines . map strContent
. findChildren (unqual "Annotation")