Export.hs revision e9458b1a7a19a63aa4c179f9ab20f4d50681c168
{- |
Module : ./Omega/Export.hs
Description : export a development graph to an omega library
Copyright : (c) Ewaryst Schulz, DFKI Bremen 2009
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Ewaryst.Schulz@dfki.de
Stability : provisional
Portability : non-portable(Logic)
A given development graph will be exported to an omega library.
The structure of the development graph is expected to satisfy additional
requirements. The form of the specs should be the following:
spec <name> = spec-ref_1 and ... and spec-ref_n then basic-spec
n can also be 0 or 1.
-}
module Omega.Export
( exportDGraph
, exportNodeLab
) where
import Logic.Coerce
import qualified Logic.Prover as P
{- import Logic.Logic
import Logic.Grothendieck
import Logic.Comorphism -}
import HasCASL.Logic_HasCASL
import qualified HasCASL.Le as Le
import Static.DevGraph
import Static.GTheory
import Common.Id
import Common.ExtSign
import Common.LibName
import Common.AS_Annotation
import Omega.DataTypes
import Omega.Terms
import Data.Graph.Inductive.Graph
import Data.List
import Data.Maybe
import qualified Data.Map as Map
-- | DGraph to Omega Library translation
exportDGraph :: LibName -> DGraph -> Library
exportDGraph ln dg =
let libid = getLibId ln
in
Library (show libid)
$ mapMaybe (exportNodeLab libid dg)
$ topsortedNodes dg
-- | DGNodeLab to Theory translation
exportNodeLab :: LibId -> DGraph -> LNode DGNodeLab -> Maybe Theory
exportNodeLab _ dg (n, lb) =
justWhen (not $ isDGRef lb) $
case dgn_theory lb of
G_theory lid _ (ExtSign sign _) _ sens _ ->
let theoryname = getDGNodeName lb
msg = "Omega Export: Try to coerce to HasCASL!"
e = error msg
(signature, sentences) =
fromMaybe e $
coerceBasicTheory lid HasCASL msg (sign, P.toNamedList sens)
in Theory theoryname
(mapMaybe (makeImport dg) $ innDG dg n)
$ exportSign signature ++ exportSens sentences
exportSign :: Le.Env -> [TCElement]
-- need to filter the elements which are not locally defined but imported!
exportSign Le.Env { Le.assumps = ops } = map (TCSymbol . show) $ Map.keys ops
exportSens :: [Named Le.Sentence] -> [TCElement]
exportSens = mapMaybe exportSen
exportSen :: Named Le.Sentence -> Maybe TCElement
exportSen SenAttr
{ senAttr = name
, isAxiom = isAx
, sentence = (Le.Formula t) }
= Just $ TCAxiomOrTheorem (not isAx) name $ toTerm t
exportSen _ = Nothing
makeImport :: DGraph -> LEdge DGLinkLab -> Maybe String
makeImport dg (from, _, lbl) =
justWhen (isGlobalDef $ dgl_type lbl) $ getDGNodeName $ labDG dg from