PrintDevGraph.hs revision c5653d37b37dcc025ff6dd1eada95ae67116e699
{- |
Module : $Header$
Description : pretty printing (parts of) a LibEnv
Copyright : (c) C. Maeder, Uni Bremen 2002-2006
License : similar to LGPL, see HetCATS/LICENSE.txt or LIZENZ.txt
Maintainer : Christian.Maeder@dfki.de
Stability : provisional
Portability : non-portable(DevGraph)
pretty printing (parts of) a LibEnv
-}
module Static.PrintDevGraph
( prettyLibEnv
, printTh
, prettyHistElem
, prettyHistory
, prettyGr
, prettyLEdge
, showLEdge
, dgOriginHeader
, dgOriginSpec
, showXPath
, dgLinkOriginHeader
, dgLinkOriginSpec
) where
import Static.GTheory
import Static.DevGraph
import Common.GlobalAnnotations
import Common.LibName
import Common.Id
import Common.Doc as Doc
import Common.DocUtils
import Common.Result
import Common.Keywords
import Common.ConvertGlobalAnnos
import Common.AnalyseAnnos
import qualified Common.Lib.SizedList as SizedList
import qualified Common.Lib.Rel as Rel
import qualified Common.Lib.Graph as Tree
import Data.Graph.Inductive.Graph as Graph
import qualified Data.Map as Map
import qualified Data.Set as Set
import Data.List
import Data.Char
printTh :: GlobalAnnos -> SIMPLE_ID -> G_theory -> Doc
printTh oga sn g =
let ga = removeProblematicListAnnos oga in
useGlobalAnnos ga $ pretty ga $+$ prettyGTheorySL g $+$
sep [keyword specS <+> sidDoc sn <+> equals, prettyGTheory g]
removeProblematicListAnnos :: GlobalAnnos -> GlobalAnnos
removeProblematicListAnnos ga = let
is = Map.keysSet $ Rel.toMap $ prec_annos ga
la = literal_annos ga
nla = la { list_lit = Map.filterWithKey ( \ li _ ->
let (op, cl, cs) = getListBrackets li in
Set.null $ Set.filter ( \ (Id ts ics _) ->
cs == ics && isPrefixOf op ts && isSuffixOf cl ts) is)
$ list_lit la }
Result _ (Just lm) = store_literal_map Map.empty $ convertLiteralAnnos nla
in ga { literal_annos = nla
, literal_map = lm }
-- * pretty instances
showXPathComp :: XPathPart -> String
showXPathComp c = case c of
ElemName s -> s
ChildIndex i -> "Spec[" ++ show i ++ "]"
showXPath :: [XPathPart] -> String
showXPath = intercalate "/" . map showXPathComp
showNodeId :: Node -> String
showNodeId i = "node " ++ show i
instance Pretty NodeSig where
pretty (NodeSig n sig) = fsep [ text (showNodeId n) <> colon, pretty sig ]
dgOriginSpec :: DGOrigin -> Maybe SIMPLE_ID
dgOriginSpec o = case o of
DGInst n -> Just n
DGFitView n -> Just n
_ -> Nothing
dgOriginHeader :: DGOrigin -> String
dgOriginHeader o = case o of
DGEmpty -> "empty-spec"
DGBasic -> "foreign-basic-spec"
DGBasicSpec _ -> "basic-spec"
DGExtension -> "extension"
DGTranslation -> "translation"
DGUnion -> "union"
DGHiding -> "hiding"
DGRevealing -> "revealing"
DGRevealTranslation -> "translation part of a revealing"
DGFreeOrCofree v -> map toLower (show v) ++ "-spec"
DGLocal -> "local-spec"
DGClosed -> "closed-spec"
DGLogicQual -> "spec with logic qualifier"
DGData -> "data-spec"
DGFormalParams -> "formal parameters"
DGImports -> "arch import"
DGInst _ -> "instantiation"
DGFitSpec -> "fitting-spec"
DGFitView _ -> "fitting-view"
DGProof -> "proof-construct"
DGNormalForm n -> "normal-form(" ++ shows n ")"
DGintegratedSCC -> "OWL spec with integrated strongly connected components"
DGFlattening -> "flattening"
instance Pretty DGOrigin where
pretty o = text (dgOriginHeader o) <+> pretty (dgOriginSpec o)
<+> case o of
DGBasicSpec syms -> if Set.null syms then Doc.empty else pretty syms
_ -> Doc.empty
instance Pretty DGNodeInfo where
pretty c = case c of
DGNode {} -> pretty $ node_origin c
DGRef {} ->
pretty (getLIB_ID $ ref_libname c) <+> text (showNodeId $ ref_node c)
prettyDGNodeLab :: DGNodeLab -> Doc
prettyDGNodeLab l = sep [ text $ getDGNodeName l, pretty $ nodeInfo l]
instance Pretty DGNodeLab where
pretty l = vcat
[ text "Origin:" <+> pretty (nodeInfo l)
, text $ "XPath: " ++ showXPath (reverse $ xpath $ dgn_name l)
, pretty $ getNodeConsStatus l
, if hasOpenGoals l then text "has open goals" else
if hasSenKind (const True) l then Doc.empty else text "locally empty"
, if labelHasHiding l then text "has ingoing hiding link" else Doc.empty
, case dgn_nf l of
Nothing -> Doc.empty
Just n -> text "normal form:" <+> text (showNodeId n)
, case dgn_sigma l of
Nothing -> Doc.empty
Just gm -> text "normal form inclusion:" $+$ pretty gm
, text "Local Theory:"
, pretty $ dgn_theory l]
instance Pretty EdgeId where
pretty (EdgeId i) = text $ show i
dgLinkOriginSpec :: DGLinkOrigin -> Maybe SIMPLE_ID
dgLinkOriginSpec o = case o of
DGLinkInst n -> Just n
DGLinkView n -> Just n
DGLinkFitView n -> Just n
DGLinkFitViewImp n -> Just n
_ -> Nothing
dgLinkOriginHeader :: DGLinkOrigin -> String
dgLinkOriginHeader o = case o of
SeeTarget -> "see target"
SeeSource -> "see source"
DGImpliesLink -> "reversed implies link of extension"
DGLinkExtension -> "extension"
DGLinkTranslation -> "OMDoc translation"
DGLinkClosedLenv -> "closed spec and local environment"
DGLinkImports -> "OWL import"
DGLinkInst _ -> "instantiation-link"
DGLinkView _ -> "view"
DGLinkFitView _ -> "fitting view to"
DGLinkFitViewImp _ -> "fitting view (import)"
DGLinkProof -> "proof-link"
DGLinkFlatteningUnion -> "flattening non-disjoint union"
DGLinkFlatteningRename -> "flattening renaming"
instance Pretty DGLinkOrigin where
pretty o = text (dgLinkOriginHeader o) <+> pretty (dgLinkOriginSpec o)
-- | only shows the edge and node ids
showLEdge :: LEdge DGLinkLab -> String
showLEdge (s, t, l) = "edge " ++ showEdgeId (dgl_id l)
++ " (" ++ showNodeId s ++ " --> " ++ show t ++ ")"
-- | only print the origin and some notion of the tye of the label
prettyDGLinkLab :: (DGLinkLab -> Doc) -> DGLinkLab -> Doc
prettyDGLinkLab f l = fsep
[ case dgl_origin l of
SeeTarget -> Doc.empty
o -> pretty o
, f l ]
-- | print short edge information
prettyLEdge :: LEdge DGLinkLab -> Doc
prettyLEdge e@(_, _, l) = fsep
[ text $ showLEdge e
, prettyDGLinkLab (text . getDGLinkType) l
, prettyThmLinkStatus $ dgl_type l ]
dgRuleEdges :: DGRule -> [LEdge DGLinkLab]
dgRuleEdges r = case r of
DGRuleWithEdge _ l -> [l]
Composition ls -> ls
_ -> []
dgRuleHeader :: DGRule -> String
dgRuleHeader r = case r of
DGRule str -> str
DGRuleWithEdge str _ -> str
DGRuleLocalInference _ -> "Local-Inference"
Composition _ -> "Composition"
BasicInference _ _ -> "Basic-Inference"
BasicConsInference _ _ -> "Basic-Cons-Inference"
instance Pretty DGRule where
pretty r = let es = dgRuleEdges r in fsep
[ text (dgRuleHeader r) <> if null es then Doc.empty else colon, case r of
DGRuleLocalInference m ->
braces $ sepByCommas $ map (\ (s, t) ->
let d = text s in if s == t then d else pairElems d $ text t) m
BasicInference c bp -> fsep
[ text $ "using comorphism '" ++ show c ++ "' with proof tree:"
, text $ show bp]
BasicConsInference c bp -> fsep
[ text $ "using comorphism '" ++ show c ++ "' with proof tree:"
, text $ show bp]
_ -> case es of
[] -> Doc.empty
[(_, _, l)] -> prettyDGLinkLab (const Doc.empty) l
_ -> pretty $ Set.fromList $ map (\ (_, _, l) -> dgl_id l) es]
instance Pretty ThmLinkStatus where
pretty tls = case tls of
LeftOpen -> Doc.empty
Proven r ls -> let s = proofBasis ls in
fcat [parens (pretty r), if Set.null s then Doc.empty else pretty s]
prettyThmLinkStatus :: DGLinkType -> Doc
prettyThmLinkStatus = maybe Doc.empty pretty . thmLinkStatus
instance Pretty ConsStatus where
pretty (ConsStatus cons pc thm) = case max cons pc of
None -> Doc.empty
c -> text (show c) <> pretty thm
instance Pretty DGLinkType where
pretty t = text (getDGEdgeTypeModIncName $ getHomEdgeType True t)
<> prettyThmLinkStatus t
$+$ pretty (getLinkConsStatus t)
instance Pretty DGLinkLab where
pretty l = vcat
[ text "Origin:" <+> pretty (dgl_origin l)
, text "Type:" <+> pretty (dgl_type l)
, text "Signature Morphism:"
, pretty $ dgl_morphism l
, case dgl_type l of
HidingFreeOrCofreeThm Nothing gm _ ->
text "with hiding morphism:" $+$ pretty gm
_ -> Doc.empty ]
-- | pretty print a labelled node
prettyGenLNode :: (a -> Doc) -> LNode a -> Doc
prettyGenLNode f (n, l) = fsep [text (showNodeId n) <> colon, f l]
prettyLNode :: LNode DGNodeLab -> Doc
prettyLNode = prettyGenLNode prettyDGNodeLab
dgChangeType :: DGChange -> String
dgChangeType c = case c of
InsertNode _ -> "insert"
DeleteNode _ -> "delete"
InsertEdge _ -> "insert"
DeleteEdge _ -> "delete"
SetNodeLab _ _ -> "change"
instance Pretty DGChange where
pretty c = text (dgChangeType c) <+> case c of
InsertNode n -> prettyLNode n
DeleteNode n -> prettyLNode n
InsertEdge e -> prettyLEdge e
DeleteEdge e -> prettyLEdge e
SetNodeLab _ n -> prettyLNode n
prettyGr :: Tree.Gr DGNodeLab DGLinkLab -> Doc
prettyGr g = vcat (map prettyLNode $ labNodes g)
$+$ vcat (map prettyLEdge $ labEdges g)
prettyImport :: MaybeNode -> Doc
prettyImport imp = case imp of
EmptyNode _ -> Doc.empty
JustNode n -> keyword givenS <+> pretty (getNode n)
prettyAllParams :: MaybeNode -> Doc
prettyAllParams ps = case ps of
EmptyNode _ -> Doc.empty
JustNode n -> pretty (getNode n)
instance Pretty ExtGenSig where
pretty (ExtGenSig (GenSig imp params allParamSig) body) = fsep $
pretty (getNode body) :
(if null params then [] else
[ pretty $ map getNode params
, prettyAllParams allParamSig ]) ++
[ prettyImport imp ]
instance Pretty ExtViewSig where
pretty (ExtViewSig src gmor ptar) = fsep
[ pretty (getNode src) <+> text toS
, pretty ptar
, pretty gmor ]
instance Pretty UnitSig where
pretty (UnitSig params usig) =
(if null params then Doc.empty else pretty $ map getNode params)
<+> pretty (getNode usig)
instance Pretty ImpUnitSigOrSig where
pretty iu = case iu of
ImpUnitSig imp usig -> fsep
[ pretty usig, prettyImport imp ]
Sig n -> keyword specS <+> pretty (getNode n)
instance Pretty ArchSig where
pretty (ArchSig m usig) = fsep
[ printMap id vcat (\ k v -> fsep [keyword unitS <+> k <+> mapsto, v]) m
, pretty usig ]
instance Pretty GlobalEntry where
pretty ge = case ge of
SpecEntry se -> topKey specS <+> pretty se
ViewEntry ve -> topKey viewS <+> pretty ve
UnitEntry ue -> topKey unitS <+> pretty ue
ArchEntry ae -> topKey archS <+> pretty ae
RefEntry -> keyword refinementS
instance Pretty DGraph where
pretty dg = vcat
[ prettyGr $ dgBody dg
, text "Global Environment"
, printMap id vcat (\ k v -> fsep [k <+> mapsto, v]) $ globalEnv dg
, text "History"
, prettyHistory $ reverseHistory $ proofHistory dg
, text "Redoable History"
, prettyHistory $ SizedList.reverse $ reverseHistory $ redoHistory dg
, text "next edge:" <+> pretty (getNewEdgeId dg) ]
prettyHistElem :: HistElem -> Doc
prettyHistElem he = case he of
HistElem c -> pretty c
HistGroup r l -> text "rule:" <+> pretty r $+$ space <+> prettyHistory l
prettyHistory :: ProofHistory -> Doc
prettyHistory = vcat . map prettyHistElem . SizedList.toList
prettyLibEnv :: LibEnv -> Doc
prettyLibEnv = printMap id vsep ($+$)