ToXml.hs revision c208973c890b8f993297720fd0247bc7481d4304
{- |
Module : $Header$
Description : xml output of Hets development graphs
Copyright : (c) Ewaryst Schulz, Uni Bremen 2009
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Ewaryst.Schulz@dfki.de
Stability : provisional
Portability : non-portable(Grothendieck)
Xml of Hets DGs
-}
module Static.ToXml (dGraph) where
import Static.DgUtils
import Static.DevGraph
import Static.GTheory
import Static.PrintDevGraph
import Logic.Prover
import Logic.Logic
import Logic.Comorphism
import Logic.Grothendieck
import Common.AS_Annotation
import Common.ConvertGlobalAnnos
import Common.Consistency
import Common.Doc
import Common.DocUtils
import Common.ExtSign
import Common.GlobalAnnotations
import Common.Id
import Common.LibName
import qualified Common.OrderedMap as OMap
import Common.Result
import Common.ToXml
import Text.XML.Light
import Data.Graph.Inductive.Graph as Graph
import qualified Data.Map as Map
import qualified Data.Set as Set (toList)
dGraph :: LibEnv -> LibName -> DGraph -> Element
dGraph lenv ln dg =
let body = dgBody dg
ga = globalAnnos dg
lnodes = labNodes body
in add_attrs [ mkAttr "filename" $ getFilePath ln
, mkAttr "libname" $ show $ getLibId ln
, mkAttr "nextlinkid" $ showEdgeId $ getNewEdgeId dg ]
$ unode "DGraph" $
subnodes "Global" (annotations ga $ convertGlobalAnnos ga)
++ map (lnode ga lenv) lnodes
++ map (ledge ga dg) (labEdges body)
++ Map.foldWithKey (globalEntry ga dg) [] (globalEnv dg)
genSig :: DGraph -> GenSig -> [Attr]
genSig dg (GenSig _ _ allparams) = case allparams of
EmptyNode _ -> []
JustNode (NodeSig n _) -> [mkAttr "formal-param" $ getNameOfNode n dg]
globalEntry :: GlobalAnnos -> DGraph -> SIMPLE_ID -> GlobalEntry
-> [Element] -> [Element]
globalEntry ga dg si ge l = case ge of
SpecEntry (ExtGenSig g (NodeSig n _)) ->
add_attrs (mkNameAttr (getNameOfNode n dg) :
rangeAttrs (getRangeSpan si) ++ genSig dg g)
(unode "SPEC-DEFN" ()) : l
ViewEntry (ExtViewSig (NodeSig s _) gm (ExtGenSig g (NodeSig n _))) ->
add_attrs (mkNameAttr (show si) : rangeAttrs (getRangeSpan si)
++ genSig dg g ++
[ mkAttr "source" $ getNameOfNode s dg
, mkAttr "target" $ getNameOfNode n dg])
(unode "VIEW-DEFN" $ gmorph ga gm) : l
_ -> l
gmorph :: GlobalAnnos -> GMorphism -> Element
gmorph ga gm@(GMorphism cid (ExtSign ssig _) _ tmor _) =
case map_sign cid ssig of
Result _ mr -> case mr of
Nothing -> error $ "Static.ToXml.gmorph: " ++ showGlobalDoc ga gm ""
Just (_, tsens) -> let
tid = targetLogic cid
sl = Map.toList . Map.filterWithKey (/=) $ symmap_of tid tmor
psym = prettyElem "Symbol" ga
in add_attr (mkNameAttr $ language_name cid)
$ unode "GMorphism" $
subnodes "Axioms"
(map (mkAxDocNode ga . print_named (targetLogic cid)) tsens)
++ map (\ (s, t) -> unode "map" [psym s, psym t]) sl
prettyRangeElem :: (GetRange a, Pretty a) => String -> GlobalAnnos -> a
-> Element
prettyRangeElem s ga a =
add_attrs (rangeAttrs $ getRangeSpan a) $ prettyElem s ga a
lnode :: GlobalAnnos -> LibEnv -> LNode DGNodeLab -> Element
lnode ga lenv (_, lbl) =
let nm = dgn_name lbl
(spn, xp) = case reverse $ xpath nm of
ElemName s : t -> (s, showXPath t)
l -> ("?", showXPath l)
in add_attrs (mkNameAttr (showName nm)
: if not (isDGRef lbl) then case signOf $ dgn_theory lbl of
G_sign slid _ _ -> mkAttr "logic" (show slid)
: if dgn_origin lbl < DGProof then
[mkAttr "refname" spn, mkAttr "relxpath" xp ]
else [] else [])
$ unode "DGNode"
$ case nodeInfo lbl of
DGRef li rf ->
[ add_attrs [ mkAttr "library" $ show $ getLibId li
, mkAttr "node" $ getNameOfNode rf
$ lookupDGraph li lenv ]
$ unode "Reference" () ]
DGNode orig cs -> consStatus cs ++ case orig of
DGBasicSpec _ (G_sign lid (ExtSign dsig _) _) _ ->
subnodes "Declarations"
$ map (prettyRangeElem "Symbol" ga)
$ mostSymsOf lid dsig
DGRestriction _ hidSyms -> subnodes "Hidden"
$ map (prettyRangeElem "Symbol" ga)
$ Set.toList hidSyms
_ -> []
++ case dgn_theory lbl of
G_theory lid (ExtSign sig _) _ thsens _ -> let
(axs, thms) = OMap.partition isAxiom $ OMap.map
(mapValue $ simplify_sen lid sig) thsens
in subnodes "Axioms"
(map (mkAxDocNode ga . print_named lid) $ toNamedList axs)
++ subnodes "Theorems"
(map (\ (s, t) -> mkThmNode ga
(print_named lid $ toNamed s t)
(isProvenSenStatus t)
) $ OMap.toList thms)
mkThmNode :: GlobalAnnos -> Doc -> Bool -> Element
mkThmNode ga d a = add_attr
(mkProvenAttr a) . unode "Theorem" . show $ useGlobalAnnos ga d
-- | a status may be open, proven or outdated
mkStatusAttr :: String -> Attr
mkStatusAttr = mkAttr "status"
mkProvenAttr :: Bool -> Attr
mkProvenAttr b = mkStatusAttr $ if b then "proven" else "open"
mkAxDocNode :: GlobalAnnos -> Doc -> Element
mkAxDocNode ga = unode "Axiom" . show . useGlobalAnnos ga
consStatus :: ConsStatus -> [Element]
consStatus cs = case getConsOfStatus cs of
None -> []
cStat -> [unode "ConsStatus" $ show cStat]
ledge :: GlobalAnnos -> DGraph -> LEdge DGLinkLab -> Element
ledge ga dg (f, t, lbl) = let
typ = dgl_type lbl
mor = gmorph ga $ dgl_morphism lbl
mkMor n = add_attr (mkAttr "morphismsource" $ getNameOfNode n dg) mor
lnkSt = case thmLinkStatus typ of
Nothing -> []
Just tls -> case tls of
LeftOpen -> []
Proven r ls -> dgrule r ++ map (\ e ->
add_attr (mkAttr "linkref" $ showEdgeId e)
$ unode "ProofBasis" ()) (Set.toList $ proofBasis ls)
in add_attrs
[ mkAttr "source" $ getNameOfNode f dg
, mkAttr "target" $ getNameOfNode t dg
, mkAttr "linkid" $ showEdgeId $ dgl_id lbl ]
$ unode "DGLink"
$ unode "Type" (getDGLinkType lbl) : lnkSt
++ consStatus (getLinkConsStatus typ)
++ [case typ of
HidingFreeOrCofreeThm _ n _ _ -> mkMor n
FreeOrCofreeDefLink _ (JustNode ns) -> mkMor $ getNode ns
_ -> mor]
dgrule :: DGRule -> [Element]
dgrule r =
unode "Rule" (dgRuleHeader r)
: case r of
DGRuleLocalInference m ->
map (\ (s, t) -> add_attrs [mkNameAttr s, mkAttr "renamedTo" t]
$ unode "MovedTheorems" ()) m
Composition es -> map (\ e ->
add_attr (mkAttr "linkref" $ showEdgeId e)
$ unode "Composition" ()) es
DGRuleWithEdge _ e ->
[ add_attr (mkAttr "linkref" $ showEdgeId e)
$ unode "RuleTarget" () ]
_ -> []