{- |

Module : $Header$

Copyright : (c) Till Mossakowski, Uni Bremen 2002-2006

License : similar to LGPL, see HetCATS/LICENSE.txt or LIZENZ.txt

Maintainer : till@tzi.de

Stability : provisional

Portability : non-portable(Logic)

Analysis of libraries

Follows the verification semantics sketched in Chap. IV:6

of the CASL Reference Manual.

-}

{-

Todo:

Generalization to heterogeneous views

check that libname coincides with filename (otherwise internal error occurs)

-}

module Static.AnalysisLibrary

( anaLib

, ana_LIB_DEFN

) where

import Logic.Logic

import Logic.Coerce

import Logic.Grothendieck

import Logic.Prover

import Data.Graph.Inductive.Graph

import Syntax.AS_Structured hiding (View_defn, Spec_defn)

import Syntax.AS_Library

import Static.DevGraph

import Static.AnalysisStructured

import Static.AnalysisArchitecture

import Comorphisms.LogicGraph

import Common.AS_Annotation hiding (isAxiom, isDef)

import Common.GlobalAnnotations

import Common.ConvertGlobalAnnos

import Common.AnalyseAnnos

import Common.Result

import Common.Id

import qualified Common.Lib.Map as Map

import Common.PrettyPrint

import Driver.Options

import Driver.ReadFn

import Driver.WriteFn

import Data.List

import Control.Monad

-- | lookup an env or read and analyze a file

anaLib :: HetcatsOpts -> FilePath -> IO (Maybe (LIB_NAME, LibEnv))

anaLib opts file = do

defl <- lookupLogic "logic from command line: "

(defLogic opts) logicGraph

Result ds res <- ioresToIO $ anaLibFileOrGetEnv logicGraph defl opts

emptyLibEnv (fileToLibName opts file) file

showDiags opts ds

case res of

Nothing -> return res

Just (ln, lenv) -> case Map.lookup ln lenv of

Nothing -> return res

Just gctx -> do

let ga = globalAnnos gctx

writeSpecFiles opts file lenv ga (ln, globalEnv gctx)

putIfVerbose opts 3 $ showPretty ga ""

return res

-- | parsing and static analysis for files

-- Parameters: logic graph, default logic, file name

anaSourceFile :: LogicGraph -> AnyLogic -> HetcatsOpts -> LibEnv -> FilePath

-> IOResult (LIB_NAME, LibEnv)

anaSourceFile lgraph defl opts libenv fname = IOResult $ do

fname' <- existsAnSource opts fname

case fname' of

Nothing -> do

return $ fail $ "a file for input '" ++ fname ++ "' not found."

Just file ->

if isSuffixOf envSuffix file then let file' = rmSuffix file in

ioresToIO $ anaLibFileOrGetEnv lgraph defl opts libenv

(fileToLibName opts file') file'

else do

input <- readFile file

putIfVerbose opts 2 $ "Reading file " ++ file

ioresToIO $ anaString lgraph defl opts libenv input file

-- | parsing and static analysis for string (=contents of file)

-- Parameters: logic graph, default logic, contents of file, filename

anaString :: LogicGraph -> AnyLogic -> HetcatsOpts -> LibEnv -> String

-> FilePath -> IOResult (LIB_NAME, LibEnv)

anaString lgraph defl opts libenv input file =

let Result ds mast = read_LIB_DEFN_M lgraph defl opts file input

in case mast of

Just ast@(Lib_defn ln _ _ ans) -> case analysis opts of

Skip -> do

ioToIORes $ putIfVerbose opts 1 $

"Skipping static analysis of library " ++ show ln

ga <- resToIORes $ addGlobalAnnos emptyGlobalAnnos ans

case gui opts of

Only -> return ()

_ -> ioToIORes $ write_LIB_DEFN ga file opts ast

resToIORes $ Result ds Nothing

_ -> do

if ln == fileToLibName opts file

then return ()

else showDiags1 opts $ resToIORes $ Result [mkDiag Warning

("file name '" ++ file

++ "' does not match library name") $ getLIB_ID ln]

$ Just ()

ioToIORes $ putIfVerbose opts 1 $ "Analyzing library " ++ show ln

(_,ld,_,lenv) <-

ana_LIB_DEFN lgraph defl opts libenv ast

case Map.lookup ln lenv of

Nothing -> error $ "anaString: missing library: " ++ show ln

Just gctx -> ioToIORes $ do

case gui opts of

Only -> return ()

_ -> write_LIB_DEFN (globalAnnos gctx) file opts ld

when (hasEnvOut opts)

(writeFileInfo opts file gctx)

return (ln, lenv)

Nothing -> resToIORes $ Result ds Nothing

-- lookup/read a library

anaLibFile :: LogicGraph -> AnyLogic -> HetcatsOpts -> LibEnv -> LIB_NAME

-> IOResult (LIB_NAME, LibEnv)

anaLibFile lgraph defl opts libenv ln =

let lnstr = showPretty ln "" in case Map.lookup ln libenv of

Just _ -> do

putMessageIORes opts 1 $ "Analyzing from " ++ lnstr

return (ln, libenv)

Nothing -> do

putMessageIORes opts 1 $ "Downloading " ++ lnstr ++ " ..."

res <- anaLibFileOrGetEnv lgraph defl opts libenv ln

$ libNameToFile opts ln

putMessageIORes opts 1 $ "... loaded " ++ lnstr

return res

-- lookup/read a library

anaLibFileOrGetEnv :: LogicGraph -> AnyLogic -> HetcatsOpts -> LibEnv

-> LIB_NAME -> FilePath -> IOResult (LIB_NAME, LibEnv)

anaLibFileOrGetEnv lgraph defl opts libenv libname file = IOResult $ do

let env_file = rmSuffix file ++ envSuffix

recent_env_file <- checkRecentEnv opts env_file file

if recent_env_file

then do

mgc <- readVerbose opts env_file

case mgc of

Nothing -> ioresToIO $ do

ioToIORes $ putIfVerbose opts 1 $ "Deleting " ++ env_file

anaSourceFile lgraph defl opts libenv file

Just gc -> do

-- get all DGRefs from DGraph

Result ds mEnv <- ioresToIO $ foldl

( \ ioLibEnv labDG -> case snd labDG of

DGRef { dgn_libname = ln } -> do

p_libEnv <- ioLibEnv

if Map.member ln p_libEnv then

return p_libEnv

else fmap snd $ anaLibFile lgraph defl

opts p_libEnv ln

_ -> ioLibEnv)

(return $ Map.insert libname gc libenv)

$ labNodes $ devGraph gc

return $ Result ds $ fmap

( \ rEnv -> (libname, rEnv)) mEnv

else ioresToIO $ anaSourceFile lgraph defl opts libenv file

-- | analyze a LIB_DEFN

-- Parameters: logic graph, default logic, opts, library env, LIB_DEFN

-- call this function as follows:

-- do Result diags res <- ioresToIO (ana_LIB_DEFN ...)

-- mapM_ (putStrLn . show) diags

ana_LIB_DEFN :: LogicGraph -> AnyLogic -> HetcatsOpts

-> LibEnv -> LIB_DEFN

-> IOResult (LIB_NAME,LIB_DEFN,DGraph,LibEnv)

ana_LIB_DEFN lgraph defl opts libenv (Lib_defn ln alibItems pos ans) = do

gannos <- showDiags1 opts $ resToIORes $ addGlobalAnnos emptyGlobalAnnos ans

(libItems', gctx, _, libenv') <-

foldl ana (return ([], emptyGlobalContext { globalAnnos = gannos }

, defl, libenv))

(map item alibItems)

return (ln,

Lib_defn ln

(map (uncurry replaceAnnoted)

(zip (reverse libItems') alibItems))

pos

ans,

devGraph gctx,

Map.insert ln gctx libenv')

where

ana res1 libItem = do

(libItems',gctx1,l1,libenv1) <- res1

IOResult (do

Result diags2 res <-

ioresToIO $ ana_LIB_ITEM lgraph defl opts libenv1 gctx1 l1 libItem

ioresToIO $ showDiags1 opts (resToIORes (Result diags2 res))

if outputToStdout opts then

if hasErrors diags2 then

fail "Stopped due to errors"

else case res of

Just (libItem',gctx1',l1',libenv1') ->

return (return (libItem':libItems',gctx1',l1',libenv1'))

Nothing -> fail "Stopped. No result available"

else do

--result1 <- ioresToIO res1

--let diags1 = diags result1

if hasErrors diags2 then

ioresToIO $ resToIORes (Result (diags2) Nothing)

else case res of

Just (libItem',gctx1',l1',libenv1') ->

return ((return (libItem':libItems',gctx1',l1',libenv1'))

{diags = diags2})

Nothing -> return $ fail "Stopped. No result available"

)

putMessageIORes :: HetcatsOpts -> Int -> String -> IOResult ()

putMessageIORes opts i msg =

if outputToStdout opts

then ioToIORes $ putIfVerbose opts i msg

else resToIORes $ message () msg

-- analyse a LIB_ITEM

-- Parameters: logic graph, default logic, opts, library env

-- global context, current logic, LIB_ITEM

ana_LIB_ITEM :: LogicGraph -> AnyLogic -> HetcatsOpts

-> LibEnv -> GlobalContext -> AnyLogic

-> LIB_ITEM

-> IOResult (LIB_ITEM,GlobalContext,AnyLogic,LibEnv)

ana_LIB_ITEM lgraph _defl opts libenv gctx l

(Spec_defn spn gen asp pos) = do

putMessageIORes opts 1 $ "Analyzing spec " ++ showPretty spn ""

(gen',(imp,params,allparams),dg') <-

resToIORes (ana_GENERICITY lgraph gctx l opts

(extName "P" (makeName spn)) gen)

(sp',body,dg'') <-

resToIORes (ana_SPEC lgraph gctx { devGraph = dg' }

allparams (makeName spn) opts (item asp))

let libItem' = Spec_defn spn gen' (replaceAnnoted sp' asp) pos

genv = globalEnv gctx

if Map.member spn genv

then resToIORes (plain_error (libItem',gctx,l,libenv)

("Name "++ showPretty spn " already defined")

pos)

else return (libItem',

gctx { globalEnv = Map.insert spn (SpecEntry

(imp, params, getMaybeSig allparams, body)) genv

, devGraph = dg'' }, l, libenv)

ana_LIB_ITEM lgraph defl opts libenv gctx l

(View_defn vn gen vt gsis pos) = do

putMessageIORes opts 1 $ "Analyzing view " ++ showPretty vn ""

resToIORes (ana_VIEW_DEFN lgraph defl libenv gctx l opts

vn gen vt gsis pos)

-- architectural specification

ana_LIB_ITEM lgraph defl opts libenv gctx l

(Arch_spec_defn asn asp pos) = do

putMessageIORes opts 1 $ "Analyzing arch spec " ++ showPretty asn ""

(archSig, dg', asp') <- resToIORes (ana_ARCH_SPEC lgraph defl gctx l opts

(item asp))

let asd' = Arch_spec_defn asn (replaceAnnoted asp' asp) pos

gctx' = gctx { devGraph = dg' }

genv = globalEnv gctx

if Map.member asn genv

then

resToIORes (plain_error (asd', gctx', l, libenv)

("Name " ++ showPretty asn " already defined")

pos)

else

return (asd', gctx'

{ globalEnv = Map.insert asn (ArchEntry archSig) genv },

l, libenv)

-- unit specification

ana_LIB_ITEM lgraph defl opts libenv gctx l

usd@(Unit_spec_defn usn usp pos) = do

putMessageIORes opts 1 $ "Analyzing unit spec " ++ showPretty usn ""

(unitSig, dg', usp') <- resToIORes (ana_UNIT_SPEC lgraph defl gctx l opts

(EmptyNode defl) usp)

let usd' = Unit_spec_defn usn usp' pos

genv = globalEnv gctx

gctx' = gctx { devGraph = dg' }

if Map.member usn genv

then

resToIORes (plain_error (usd, gctx', l, libenv)

("Name " ++ showPretty usn " already defined")

pos)

else

return (usd', gctx'

{ globalEnv = Map.insert usn (UnitEntry unitSig) genv },

l, libenv)

-- refinement specification

ana_LIB_ITEM _lgraph _defl opts libenv gctx l

rd@(Ref_spec_defn rn _ pos) = do

putMessageIORes opts 1 $ "Analyzing refinement "

++ showPretty rn "\n (refinement analysis not implemented yet)"

let rd' = rd

genv = globalEnv gctx

if Map.member rn genv

then

resToIORes (plain_error (rd, gctx, l, libenv)

("Name " ++ showPretty rn " already defined")

pos)

else

return (rd', gctx { globalEnv = Map.insert rn (RefEntry) genv }

, l, libenv)

-- logic declaration

ana_LIB_ITEM lgraph _defl opts libenv gctx _l

(Logic_decl ln@(Logic_name logTok _) pos) = do

logNm <- lookupLogic "LOGIC DECLARATION:" (tokStr logTok) lgraph

putMessageIORes opts 1 $ "logic " ++ show logNm

return (Logic_decl ln pos,gctx,logNm,libenv)

ana_LIB_ITEM lgraph defl opts libenv gctx l

libItem@(Download_items ln items _) = do

-- we take as the default logic for imported libs

-- the global default logic

(ln', libenv') <- anaLibFile lgraph defl opts libenv ln

if ln == ln' then case Map.lookup ln libenv' of

Nothing -> error $ "Internal error: did not find library " ++

show ln ++ " available: " ++ show (Map.keys libenv')

Just gctx' -> do

(genv1,dg1) <- resToIORes (foldl (ana_ITEM_NAME_OR_MAP ln

$ globalEnv gctx')

(return (globalEnv gctx, devGraph gctx))

items)

gannos'' <- resToIORes $

globalAnnos gctx `mergeGlobalAnnos` globalAnnos gctx'

return (libItem, gctx

{ globalAnnos = gannos''

, globalEnv = genv1

, devGraph = dg1 }, l, libenv')

else resToIORes $ fail $ "downloaded library '" ++ show ln'

++ "' does not match library name '" ++ shows ln "'"

-- ??? Needs to be generalized to views between different logics

ana_VIEW_DEFN :: LogicGraph -> AnyLogic -> LibEnv -> GlobalContext

-> AnyLogic -> HetcatsOpts -> SIMPLE_ID

-> GENERICITY -> VIEW_TYPE -> [G_mapping] -> Range

-> Result (LIB_ITEM, GlobalContext, AnyLogic, LibEnv)

ana_VIEW_DEFN lgraph _defl libenv gctx l opts

vn gen vt gsis pos = do

let adj = adjustPos pos

(gen',(imp,params,allparams),dg') <-

ana_GENERICITY lgraph gctx l opts (extName "VG" (makeName vn)) gen

(vt',(src,tar),dg'') <-

ana_VIEW_TYPE lgraph gctx { devGraph = dg' } l allparams opts

(makeName vn) vt

let gsigmaS = getSig src

gsigmaT = getSig tar

G_sign lidS sigmaS <- return gsigmaS

G_sign lidT sigmaT <- return gsigmaT

gsis1 <- adj $ homogenizeGM (Logic lidS) gsis

G_symb_map_items_list lid sis <- return gsis1

sigmaS' <- adj $ coerceSign lidS lid "" sigmaS

sigmaT' <- adj $ coerceSign lidT lid "" sigmaT

mor <- if isStructured opts then return (ide lid sigmaS')

else do

rmap <- adj $ stat_symb_map_items lid sis

adj $ induced_from_to_morphism lid rmap sigmaS' sigmaT'

let nodeS = getNode src

nodeT = getNode tar

gmor = gEmbed (G_morphism lid mor)

link = (nodeS,nodeT,DGLink {

dgl_morphism = gmor,

dgl_type = GlobalThm LeftOpen None LeftOpen,

-- 'LeftOpen' for conserv correct?

dgl_origin = DGView vn})

vsig = (src,gmor,(imp,params,getMaybeSig allparams,tar))

genv = globalEnv gctx

if Map.member vn genv

then plain_error (View_defn vn gen' vt' gsis pos,gctx,l,libenv)

("Name "++showPretty vn " already defined")

pos

else return (View_defn vn gen' vt' gsis pos,

gctx { globalEnv = Map.insert vn (ViewEntry vsig) genv

, devGraph = insEdge link dg''}, l, libenv)

ana_ITEM_NAME_OR_MAP :: LIB_NAME -> GlobalEnv -> Result (GlobalEnv, DGraph)

-> ITEM_NAME_OR_MAP -> Result (GlobalEnv, DGraph)

ana_ITEM_NAME_OR_MAP ln genv' res (Item_name name) =

ana_ITEM_NAME_OR_MAP1 ln genv' res name name

ana_ITEM_NAME_OR_MAP ln genv' res (Item_name_map old new _) =

ana_ITEM_NAME_OR_MAP1 ln genv' res old new

ana_ITEM_NAME_OR_MAP1 :: LIB_NAME -> GlobalEnv -> Result (GlobalEnv, DGraph)

-> SIMPLE_ID -> SIMPLE_ID

-> Result (GlobalEnv, DGraph)

ana_ITEM_NAME_OR_MAP1 ln genv' res old new = do

(genv,dg) <- res

entry <- maybeToResult nullRange

(showPretty old " not found") (Map.lookup old genv')

case Map.lookup new genv of

Nothing -> return ()

Just _ -> fail (showPretty new " already used")

case entry of

SpecEntry extsig ->

let (dg1,extsig1) = refExtsig ln dg (Just new) extsig

genv1 = Map.insert new (SpecEntry extsig1) genv

in return (genv1,dg1)

ViewEntry vsig ->

let (dg1,vsig1) = refViewsig ln dg vsig

genv1 = Map.insert new (ViewEntry vsig1) genv

in return (genv1,dg1)

ArchEntry _asig -> ana_err "arch spec download"

UnitEntry _usig -> ana_err "unit spec download"

RefEntry -> ana_err "ref spec download"

refNodesig :: LIB_NAME -> DGraph -> (Maybe SIMPLE_ID, NodeSig)

-> (DGraph, NodeSig)

refNodesig ln dg (name, NodeSig n sigma@(G_sign lid sig)) =

let node_contents = DGRef {

dgn_name = makeMaybeName name,

dgn_libname = ln,

dgn_node = n,

dgn_theory = G_theory lid sig noSens,

dgn_nf = Nothing,

dgn_sigma = Nothing

}

node = getNewNode dg

in (insNode (node,node_contents) dg, NodeSig node sigma)

refNodesigs :: LIB_NAME -> DGraph -> [(Maybe SIMPLE_ID, NodeSig)]

-> (DGraph, [NodeSig])

refNodesigs ln = mapAccumR (refNodesig ln)

refExtsig :: LIB_NAME -> DGraph -> Maybe SIMPLE_ID -> ExtGenSig

-> (DGraph, ExtGenSig)

refExtsig ln dg name (imps,params,gsigmaP,body) =

let

params' = map (\x -> (Nothing,x)) params

(dg0, body1) = refNodesig ln dg (name, body)

(dg1, params1) = refNodesigs ln dg0 params'

(dg2, imps1) = case imps of

EmptyNode _ -> (dg1, imps)

JustNode ns -> let

(dg3, nns) = refNodesig ln dg1 (Nothing, ns)

in (dg3, JustNode nns)

in (dg2,(imps1,params1,gsigmaP,body1))

refViewsig :: LIB_NAME -> DGraph -> (NodeSig, t1, ExtGenSig)

-> (DGraph, (NodeSig, t1, ExtGenSig))

refViewsig ln dg (src,mor,extsig) =

(dg2,(src1,mor,extsig1))

where

(_,[src1]) = refNodesigs ln dg [(Nothing,src)]

(dg2,extsig1) = refExtsig ln dg Nothing extsig