Server.hs revision 289c23a0b61b7ff9a4dc83f2e9d56ac5b2f99b04
{-# LANGUAGE CPP #-}
{- |
Module : $Header$
Description : run hets as server
Copyright : (c) Christian Maeder, DFKI GmbH 2010
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Christian.Maeder@dfki.de
Stability : provisional
Portability : non-portable (via imports)
-}
module PGIP.Server (hetsServer) where
import PGIP.Output
import PGIP.Query as Query
import Driver.Options
import Driver.ReadFn
import Driver.Version
import Network.Wai.Handler.Warp
import Network.HTTP.Types
import Control.Monad.Trans (lift, liftIO)
#ifdef WARP1
import Control.Monad.Trans.Resource
#endif
import qualified Data.Text as T
import Network.Wai
import Network.Wai.Parse
import qualified Data.ByteString.Lazy.Char8 as BS
import qualified Data.ByteString.Char8 as B8
import Static.AnalysisLibrary
import Static.ApplyChanges
import Static.ComputeTheory
import Static.DevGraph
import Static.DgUtils
import Static.DotGraph
import Static.FromXml
import Static.GTheory
import Static.History (changeDGH)
import Static.PrintDevGraph
import qualified Static.ToJson as ToJson
import Static.ToXml as ToXml
import Logic.LGToXml
import Syntax.ToXml
import Syntax.Print_AS_Structured
import Interfaces.Command
import Interfaces.CmdAction
import Interfaces.GenericATPState
import Comorphisms.LogicGraph
import Logic.Prover
import Logic.Grothendieck
import Logic.Comorphism
import Logic.Logic
import Proofs.AbstractState
import Proofs.ConsistencyCheck
import Text.Parsec.Prim (parse)
import Text.XML.Light
import Text.XML.Light.Cursor hiding (findChild)
import Common.AutoProofUtils
import Common.Doc
import Common.DocUtils (pretty, showGlobalDoc, showDoc)
import Common.ExtSign (ExtSign (..))
import Common.GtkGoal
import Common.Json (Json (..), pJson, ppJson)
import Common.LibName
import Common.PrintLaTeX
import Common.Result
import Common.ResultT
import Common.ToXml
import Common.Utils
import Common.XUpdate
import Control.Monad
import qualified Data.IntMap as IntMap
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.CaseInsensitive as CI
import Data.Char
import Data.IORef
import Data.Function
import Data.List
import Data.Maybe
import Data.Ord
import Data.Graph.Inductive.Graph (lab)
import Data.Time.Clock
import Data.Time.LocalTime
import System.Random
import System.Directory
import System.Exit
import System.FilePath
import System.IO
data Session = Session
{ sessLibEnv :: LibEnv
, sessLibName :: LibName
, sessPath :: [String]
, sessKey :: Int
, sessStart :: UTCTime
, lastAccess :: UTCTime
, usage :: Int }
type SessMap = Map.Map [String] Session
type Cache = IORef (IntMap.IntMap Session, SessMap)
randomKey :: IO Int
randomKey = randomRIO (100000000, 999999999)
sessGraph :: DGQuery -> Session -> Maybe (LibName, DGraph)
sessGraph dgQ s =
let le = sessLibEnv s
ln = sessLibName s
in case dgQ of
DGQuery _ (Just path) ->
find (\ (n, _) -> libToFileName n == path)
$ Map.toList le
_ -> fmap (\ dg -> (ln, dg)) $ Map.lookup ln le
getVal :: [QueryPair] -> String -> Maybe String
getVal qs = fromMaybe Nothing . (`lookup` qs)
getIP4 :: String -> [String]
getIP4 = splitOn '.' . takeWhile (\ c -> isDigit c || c == '.')
matchIP4 :: [String] -> [String] -> Bool
matchIP4 ip mask = case mask of
[] -> True
ft : rt -> case ip of
[] -> False -- mask too long or IP too short
d : s -> (null ft || ft == d) && matchIP4 rt s
matchWhite :: [String] -> [[String]] -> Bool
matchWhite ip l = null l || any (matchIP4 ip) l
#ifdef WARP3
type WebResponse = (Response -> IO ResponseReceived) -> IO ResponseReceived
#else
#ifdef WARP1
type WebResponse = (Response -> ResourceT IO Response) -> ResourceT IO Response
#else
type WebResponse = (Response -> IO Response) -> IO Response
#endif
#endif
hetsServer :: HetcatsOpts -> IO ()
hetsServer opts1 = do
tempDir <- getTemporaryDirectory
let tempLib = tempDir </> "MyHetsLib"
permFile = tempDir </> "empty.txt"
opts = opts1 { libdirs = tempLib : libdirs opts1 }
port1 = listen opts1
port = if port1 < 0 then 8000 else port1
wl = whitelist opts1
bl = blacklist opts1
prList ll = intercalate ", " $ map (intercalate ".") ll
createDirectoryIfMissing False tempLib
writeFile permFile ""
unless (null wl) . appendFile permFile
$ "white list: " ++ prList wl ++ "\n"
unless (null bl) . appendFile permFile
$ "black list: " ++ prList bl ++ "\n"
sessRef <- newIORef (IntMap.empty, Map.empty)
putIfVerbose opts 1 $ "hets server is listening on port " ++ show port
putIfVerbose opts 2 $ "for more information look into file: " ++ permFile
#ifdef WARP3
run port $ \ re respond -> do
#else
run port $ \ re -> do
let respond = liftIO . return
#endif
requestBodyParams <- parseRequestParams re
let rhost = shows (remoteHost re) "\n"
ip = getIP4 rhost
white = matchWhite ip wl
black = any (matchIP4 ip) bl
$ queryString re
pathBits = map T.unpack $ pathInfo re
meth = B8.unpack (requestMethod re)
query = showPathQuery pathBits splitQuery
liftIO $ do
time <- getCurrentTime
createDirectoryIfMissing False tempLib
(m, _) <- readIORef sessRef
appendFile permFile rhost
unless black $ if white then do
appendFile permFile $ shows time " sessions: "
++ shows (IntMap.size m) "\n"
appendFile permFile $ shows (requestHeaders re) "\n"
unless (null query) $ appendFile permFile $ query ++ "\n"
else appendFile permFile "not white listed\n"
if not white || black then respond $ mkResponse "" status403 ""
-- if path could be a RESTful request, try to parse it
else do
eith <- liftIO $ getArgFlags splitQuery
case eith of
Left err -> queryFail err respond
Right (qr, vs, fs) ->
let eith2 = getSwitches qr
in case eith2 of
Left err -> queryFail err respond
Right (qr2, fs2) ->
let newOpts = foldl makeOpts opts $ fs ++ map snd fs2
in if isRESTful pathBits then
let unknown = filter (`notElem` allQueryKeys) $ map fst qr2
in if null unknown then
parseRESTful newOpts sessRef pathBits
(map fst fs2 ++ map (\ (a, b) -> a ++ "=" ++ b) vs)
qr2 requestBodyParams meth respond
else queryFail ("unknown query key(s): " ++ show unknown) respond
-- only otherwise stick to the old response methods
else oldWebApi newOpts tempLib permFile sessRef re pathBits qr2
meth respond
parseRequestParams :: Request -> IO Json
parseRequestParams request =
let
noParams :: Json
noParams = JNull
parseJson :: String -> Maybe Json
parseJson s = case parse pJson "" s of
Left _ -> Nothing
Right json -> Just json
lookupHeader :: String -> Maybe String
formParams :: IO (Maybe Json)
formParams =
let toJsonObject assocList = "{" ++ (intercalate ", " $ map (\(k,v) -> show k ++ ": " ++ jsonStringOrArray v) assocList) ++ "}"
in do
(formDataB8, _) <- parseRequestBody lbsBackEnd request
return $ parseJson $ toJsonObject formDataB8
jsonBody :: IO (Maybe Json)
jsonBody = liftM (parseJson . B8.unpack) $ requestBody request
in
liftM (fromMaybe noParams) $ case lookupHeader "Content-Type" of
Just "application/json" -> jsonBody
Just "multipart/form-data" -> formParams
_ -> formParams
-- | the old API that supports downloading files and interactive stuff
oldWebApi :: HetcatsOpts -> FilePath -> FilePath -> Cache -> Request -> [String]
-> [QueryPair] -> String -> WebResponse
oldWebApi opts tempLib permFile sessRef re pathBits splitQuery meth respond
= case meth of
"GET" -> if isJust $ lookup "menus" splitQuery
then mkMenuResponse respond else do
let path = intercalate "/" pathBits
dirs@(_ : cs) <- liftIO $ getHetsLibContent opts path splitQuery
if not (null cs) || null path then mkHtmlPage path dirs respond
-- AUTOMATIC PROOFS (parsing)
else if isJust $ getVal splitQuery "autoproof" then
let qr k = Query (DGQuery k Nothing) $
anaAutoProofQuery splitQuery in do
Result ds ms <- liftIO $ runResultT
$ case readMaybe $ head pathBits of
Nothing -> fail "cannot read session id for automatic proofs"
Just k' -> getHetsResult opts [] sessRef (qr k')
respond $ case ms of
Nothing -> mkResponse textC status422 $ showRelDiags 1 ds
Just (t, s) -> mkOkResponse t s
-- AUTOMATIC PROOFS E.N.D.
else getHetsResponse opts [] sessRef pathBits splitQuery respond
"POST" -> do
(params, files) <- parseRequestBody lbsBackEnd re
mTmpFile <- case lookup "content"
$ map (\ (a, b) -> (B8.unpack a, b)) params of
Nothing -> return Nothing
Just areatext -> let content = B8.unpack areatext in
if all isSpace content then return Nothing else liftIO $ do
tmpFile <- getTempFile content "temp.het"
copyPermissions permFile tmpFile
return $ Just tmpFile
let res tmpFile =
getHetsResponse opts [] sessRef [tmpFile] splitQuery respond
mRes = maybe (queryFail "nothing submitted" respond)
res mTmpFile
case files of
[] -> if isJust $ getVal splitQuery "prove" then
getHetsResponse opts [] sessRef pathBits
(splitQuery ++ map (\ (a, b)
else mRes
[(_, f)] | isNothing $ lookup updateS splitQuery -> do
let fn = takeFileName $ B8.unpack $ fileName f
if any isAlphaNum fn then do
let tmpFile = tempLib </> fn
liftIO $ BS.writeFile tmpFile $ fileContent f
liftIO $ copyPermissions permFile tmpFile
maybe (res tmpFile) res mTmpFile
else mRes
_ -> getHetsResponse
opts (map snd files) sessRef pathBits splitQuery respond
_ -> respond $ mkResponse "" status400 ""
-- extract what we need to know from an autoproof request
anaAutoProofQuery :: [QueryPair] -> QueryKind
anaAutoProofQuery splitQuery = let
lookup2 = getVal splitQuery
prover = lookup2 "prover"
trans = lookup2 "translation"
timeout = lookup2 "timeout" >>= readMaybe
include = maybe False (== "on") $ lookup2 "includetheorems"
nodeSel = filter (/= "includetheorems")
$ map fst $ filter ((== Just "on") . snd) splitQuery
axioms = mSplitOnComma $ lookup2 "axioms"
prOrCons = case lookup2 "autoproof" of
Just "proof" -> GlProofs
Just "cons" -> GlConsistency
err -> error $ "illegal autoproof method: " ++ show err
in GlAutoProve $ ProveCmd prOrCons include prover trans timeout nodeSel False axioms
-- quick approach to whether or not the query can be a RESTful request
isRESTful :: [String] -> Bool
isRESTful pathBits = case pathBits of
[] -> False
[h] | elem h ["version", "robots.txt"] -> True
h : _ -> elem h listRESTfulIdentifiers
listRESTfulIdentifiers :: [String]
listRESTfulIdentifiers =
[ "libraries", "sessions", "menus", "filetype", "hets-lib", "dir"]
++ nodeEdgeIdes ++ newRESTIdes
++ ["available-provers"]
nodeEdgeIdes :: [String]
nodeEdgeIdes = ["nodes", "edges"]
newRESTIdes :: [String]
newRESTIdes =
[ "dg", "translations", "provers", "consistency-checkers", "prove"
, "consistency-check" ]
queryFail :: String -> WebResponse
queryFail msg respond = respond $ mkResponse textC status400 msg
allQueryKeys :: [String]
allQueryKeys = [updateS, "library", "consistency-checker"]
++ globalCommands ++ knownQueryKeys
data RequestBodyParam = Single String | List [String]
-- query is analysed and processed in accordance with RESTful interface
parseRESTful :: HetcatsOpts -> Cache -> [String] -> [String] -> [QueryPair]
-> Json -> String -> WebResponse
parseRESTful opts sessRef pathBits qOpts splitQuery requestBodyParams meth respond = let
{- some parameters from the paths query part might be needed more than once
(when using lookup upon querybits, you need to unpack Maybe twice) -}
lookupQueryStringParam :: String -> Maybe String
lookupQueryStringParam = getVal splitQuery
lookupBodyParam :: String -> Json -> Maybe RequestBodyParam
lookupBodyParam key json = case json of
JObject pairs -> case lookup key pairs of
Just (JArray a) -> Just $ List $ map (read . ppJson) a
Just v -> Just $ Single $ read $ ppJson v
_ -> Nothing
_ -> Nothing
lookupSingleParam :: String -> Maybe String
lookupSingleParam key = case meth of
"GET" -> lookupQueryStringParam key
_ -> case lookupBodyParam key requestBodyParams of
Just (Single s) -> Just s
_ -> Nothing
lookupListParam :: String -> [String]
lookupListParam key = case meth of
"GET" -> mSplitOnComma $ lookupQueryStringParam key
_ -> case lookupBodyParam key requestBodyParams of
Just (List ps) -> ps
_ -> []
session = lookupSingleParam "session" >>= readMaybe
library = lookupSingleParam "library"
format = lookupSingleParam "format"
nodeM = lookupSingleParam "node"
theorems = lookupListParam "theorems"
transM = lookupSingleParam "translation"
proverM = lookupSingleParam "prover"
consM = lookupSingleParam "consistency-checker"
inclM = lookupSingleParam "include"
axioms = lookupListParam "axioms"
incl = maybe False (\ s ->
notElem (map toLower s) ["f", "false"]) inclM
timeout = lookupSingleParam "timeout" >>= readMaybe
queryFailure = queryFail
("this query does not comply with RESTful interface: "
++ showPathQuery pathBits splitQuery) respond
-- since used more often, generate full query out of nodeIRI and nodeCmd
nodeQuery s = NodeQuery $ maybe (Right s) Left (readMaybe s :: Maybe Int)
parseNodeQuery :: Monad m => String -> Int -> m NodeCommand -> m Query.Query
parseNodeQuery p sId ncmd = ncmd >>= let
in return . Query (DGQuery sId (Just p)) . nodeQuery (getFragment p)
-- call getHetsResult with the properly generated query (Final Result)
getResponseAux myOpts qr = do
Result ds ms <- liftIO $ runResultT $ getHetsResult myOpts [] sessRef qr
respond $ case ms of
Nothing -> mkResponse textC status422 $ showRelDiags 1 ds
Just (t, s) -> mkOkResponse t s
getResponse = getResponseAux opts
-- respond depending on request Method
in case meth of
rm | elem rm ["GET", "POST"] -> case pathBits of
["robots.txt"] -> respond $ mkOkResponse textC
$ unlines ["User-agent: *", "Disallow: /"]
-- show all menu options
["menus"] -> mkMenuResponse respond
-- list files from directory
"dir" : r -> do
let path' = intercalate "/" r
dirs <- liftIO $ getHetsLibContent opts path' splitQuery
mkHtmlPage path' dirs respond
["version"] -> respond $ mkOkResponse textC hetcats_version
["available-provers"] ->
liftIO (usableProvers logicGraph)
>>= respond . mkOkResponse xmlC . ppTopElement
-- get dgraph from file
"filetype" : libIri : _ -> mkFiletypeResponse opts libIri respond
"hets-lib" : r -> let file = intercalate "/" r in
getResponse $ Query (NewDGQuery file []) $ DisplayQuery format
-- get library (complies with get/hets-lib for now)
["libraries", libIri, "development_graph"] ->
getResponse $ Query (NewDGQuery libIri []) $ DisplayQuery format
-- get previously created session
"sessions" : sessId : cmd -> case readMaybe sessId of
Nothing -> queryFail ("failed to read session number from " ++ sessId)
respond
Just sId ->
(case nodeM of
Just ndIri -> parseNodeQuery ndIri sId $ case cmd of
["provers"] -> return $ NcProvers GlProofs transM
["translations"] -> return $ NcTranslations Nothing
_ -> fail $ "unknown node command for a GET-request: "
++ intercalate "/" cmd
Nothing -> fmap (Query (DGQuery sId Nothing)) $ case cmd of
[] -> return $ DisplayQuery format
["provers"] -> return $ GlProvers GlProofs transM
["translations"] -> return GlTranslations
_ -> fail $ "unknown global command for a GET-request: "
++ intercalate "/" cmd) >>= getResponse
-- get node or edge view
nodeOrEdge : p : c | elem nodeOrEdge nodeEdgeIdes -> let
iriPath = takeWhile (/= '#') p
dgQ = maybe (NewDGQuery (fromMaybe iriPath library) [])
(`DGQuery` library) session
f = getFragment p
in case elemIndex nodeOrEdge nodeEdgeIdes of
Just 0 -> let
i = maybe (Right f) Left $ readMaybe f in
getResponse $ Query dgQ $ NodeQuery i $ case c of
["theory"] -> NcCmd Query.Theory
_ -> NcCmd Query.Info
Just 1 -> case readMaybe f of
Just i -> getResponse $ Query dgQ $ EdgeQuery i "edge"
Nothing -> queryFail ("failed to read edgeId from " ++ f) respond
_ -> error $ "PGIP.Server.elemIndex " ++ nodeOrEdge
newIde : libIri : rest ->
let cmdOptList = filter (/= "") rest
(optFlags, cmdList) = partition (`elem` map fst optionFlags)
cmdOptList
newOpts = foldl makeOpts opts $ mapMaybe (`lookup` optionFlags)
optFlags
in if elem newIde newRESTIdes && all (`elem` globalCommands) cmdList
then getResponseAux newOpts . Query (NewDGQuery libIri $ cmdList
++ Set.toList (Set.fromList $ optFlags ++ qOpts))
$ case newIde of
"translations" -> case nodeM of
Nothing -> GlTranslations
Just n -> nodeQuery n $ NcTranslations Nothing
_ | elem newIde ["provers", "consistency-checkers"] ->
let pm = if newIde == "provers" then GlProofs else GlConsistency
in case nodeM of
Nothing -> GlProvers pm transM
Just n -> nodeQuery n $ NcProvers pm transM
_ | elem newIde ["prove", "consistency-check"] ->
let isProve = newIde == "prove"
pm = if isProve then GlProofs else GlConsistency
pc = ProveCmd pm
(not (isProve && isJust inclM) || incl)
(if isProve then proverM else consM) transM timeout theorems True axioms
in case nodeM of
Nothing -> GlAutoProve pc
Just n -> nodeQuery n $ ProveNode pc
_ -> DisplayQuery (Just $ fromMaybe "xml" format)
else queryFailure
_ -> queryFailure
"PUT" -> case pathBits of
{- execute global commands
TODO load other library ??? -}
["libraries", libIri, "proofs", prId, cmd] ->
case readMaybe prId of
Nothing -> queryFail ("failed to read sessionId from " ++ prId)
respond
Just sessId -> let
dgQ = DGQuery sessId $ Just libIri in
getResponse $ Query dgQ $ GlobCmdQuery cmd
-- execute a proof or calculus request
["sessions", sessId, cmd] -> case readMaybe sessId of
Nothing -> queryFail ("failed to read sessionId from " ++ sessId)
respond
Just sId -> case cmd of
"prove" ->
let pc = ProveCmd GlProofs incl proverM transM timeout [] False axioms
in case nodeM of
-- prove all nodes if no singleton is selected
Nothing -> return $ Query (DGQuery sId Nothing)
$ GlAutoProve pc
-- otherwise run prover for single node only
Just ndIri -> parseNodeQuery ndIri sId $ return
$ ProveNode pc
>>= getResponse
-- on other cmd look for (optional) specification of node or edge
_ -> case (nodeM, lookupSingleParam "edge") of
-- fail if both are specified
(Just _, Just _) ->
fail "please specify only either node or edge"
-- call command upon a single node
(Just ndIri, Nothing) -> parseNodeQuery ndIri sId
$ case lookup cmd $ map (\ a -> (showNodeCmd a, a)) nodeCmds of
Just nc -> return $ NcCmd nc
_ -> fail $ "unknown node command '" ++ cmd ++ "' "
-- call (the only) command upon a single edge
(Nothing, Just edIri) -> case readMaybe $ getFragOfCode edIri of
Just i -> return $ Query (DGQuery sId Nothing)
$ EdgeQuery i "edge"
Nothing ->
fail $ "failed to read edgeId from edgeIRI: " ++ edIri
-- call of global command
_ -> return $ Query (DGQuery sId Nothing) $ GlobCmdQuery cmd
>>= getResponse
-- fail if request doesn't comply
_ -> queryFailure
{- create failure response if request method is not known
(should never happen) -}
_ -> respond $ mkResponse "" status400 ""
mSplitOnComma :: Maybe String -> [String]
mSplitOnComma mstr = case mstr of
Nothing -> []
Just str -> splitOn ',' str
mkMenuResponse :: WebResponse
mkMenuResponse respond =
respond $ mkOkResponse xmlC $ ppTopElement $ unode "menus" mkMenus
mkMenus :: [Element]
mkMenus = menuTriple "" "Get menu triples" "menus"
: menuTriple "/DGraph" updateS updateS
: map (\ (c, _) -> menuTriple "/" (menuTextGlobCmd c) $ cmdlGlobCmd c)
allGlobLibAct
++ map (\ nc -> menuTriple "/DGraph/DGNode" ("Show " ++ nc) nc) nodeCommands
++ [menuTriple "/DGraph/DGLink" "Show edge info" "edge"]
status422 :: Status
status422 = Status 422 $ B8.pack "Unprocessable Entity"
mkFiletypeResponse :: HetcatsOpts -> String -> WebResponse
mkFiletypeResponse opts libIri respond = do
res <- liftIO $ getContentAndFileType opts libIri
respond $ case res of
Left err -> mkResponse textC status422 err
Right (mr, _, fn, _) -> case mr of
Nothing -> mkResponse textC status422 $ fn ++ ": unknown file type"
Just r -> mkOkResponse textC $ fn ++ ": " ++ r
menuTriple :: String -> String -> String -> Element
menuTriple q d c = unode "triple"
[ unode "xquery" q
, unode "displayname" d
, unode "command" c ]
metaRobots :: Element
metaRobots = add_attrs
[mkNameAttr "robots", mkAttr "content" "noindex,nofollow"]
$ unode "meta" ()
mkHtmlString :: FilePath -> [Element] -> String
mkHtmlString path dirs = htmlHead ++ mkHtmlElem
("Listing of" ++ if null path then " repository" else ": " ++ path)
(unode "h1" ("Hets " ++ hetcats_version) : unode "p"
[ bold "Hompage:"
, aRef "http://hets.eu" "hets.eu"
, bold "Contact:"
, aRef "mailto:hets-devel@informatik.uni-bremen.de"
"hets-devel@informatik.uni-bremen.de" ]
: headElems path ++ [unode "ul" dirs])
mkHtmlElem :: String -> [Element] -> String
mkHtmlElem title = mkHtmlElemAux title [metaRobots]
mkHtmlElemAux :: String -> [Element] -> [Element] -> String
mkHtmlElemAux title headers body = ppElement $ unode "html"
[ unode "head" $ unode "title" title : headers, unode "body" body ]
-- include a script within page
mkHtmlElemScript :: String -> String -> [Element] -> String
mkHtmlElemScript title scr =
mkHtmlElemAux title [ metaRobots
, add_attr (mkAttr "type" "text/javascript") . unode "script"
. Text $ CData CDataRaw scr Nothing] -- scr must not be encoded!
mkHtmlPage :: FilePath -> [Element] -> WebResponse
mkHtmlPage path es respond = respond . mkOkResponse htmlC
$ mkHtmlString path es
mkResponse :: String -> Status -> String -> Response
mkResponse ty st = responseLBS st
(if null ty then [] else
#ifdef HTTPTYPES
[headerContentType $ B8.pack ty]
#else
[(hContentType, B8.pack ty)]
#endif
) . BS.pack
mkOkResponse :: String -> String -> Response
mkOkResponse ty = mkResponse ty status200
addSess :: Cache -> Session -> IO Int
addSess sessRef s = do
let k = sessKey s
atomicModifyIORef sessRef $ \ (m, lm) ->
((IntMap.insert k s m, Map.insert (sessPath s) s lm), k)
cleanUpCache :: Cache -> IO ()
cleanUpCache sessRef = do
let mSize = 20
time <- getCurrentTime
atomicModifyIORef sessRef $ \ (m, lm) ->
if Map.size lm < mSize then ((m, lm), ()) else
let ss = drop (div mSize 2) . sortBy (cmpSess time) $ Map.elems lm
in ((IntMap.fromList $ map (\ s -> (sessKey s, s)) ss
, Map.fromList $ map (\ s -> (sessPath s, s)) ss), ())
cmpSess :: UTCTime -> Session -> Session -> Ordering
cmpSess curTime =
let f s = let
l = lastAccess s
b = sessStart s
d2 = utctDay curTime
s2 = utctDayTime curTime
d1 = utctDay l
s1 = utctDayTime l
u = usage s
in if u <= 1 && d1 == d2 && s2 > secondsToDiffTime 3600 + s1
then (u + 100, diffUTCTime l curTime)
else (u, diffUTCTime b l)
in on compare f
addNewSess :: Cache -> Session -> IO Int
addNewSess sessRef sess = do
cleanUpCache sessRef
k <- randomKey
let s = sess { sessKey = k }
addSess sessRef s
nextSess :: Session -> Cache -> LibEnv -> Int -> IO Session
nextSess sess sessRef newLib k = if k <= 0 then return sess else
atomicModifyIORef sessRef
(\ (m, lm) -> case IntMap.lookup k m of
Nothing -> error "nextSess"
Just s -> let newSess = s { sessLibEnv = newLib }
in ((IntMap.insert k newSess m, lm), newSess))
ppDGraph :: DGraph -> Maybe PrettyType -> ResultT IO (String, String)
ppDGraph dg mt = let ga = globalAnnos dg in case optLibDefn dg of
Nothing -> fail "parsed LIB-DEFN not avaible"
Just ld ->
let d = prettyLG logicGraph ld
latex = renderLatex Nothing $ toLatex ga d
in case mt of
Just pty -> case pty of
PrettyXml -> return
(xmlC, ppTopElement $ xmlLibDefn logicGraph ga ld)
PrettyAscii _ -> return (textC, renderText ga d ++ "\n")
PrettyHtml -> return (htmlC, htmlHead ++ renderHtml ga d)
PrettyLatex _ -> return ("application/latex", latex)
Nothing -> lift $ do
tmpDir <- getTemporaryDirectory
tmpFile <- writeTempFile (latexHeader ++ latex ++ latexFooter)
tmpDir "temp.tex"
copyPermissions (tmpDir </> "empty.txt") tmpFile
mapM_ (\ s -> do
let sty = (</> "hetcasl.sty")
f = sty s
ex <- doesFileExist f
when ex $ copyFile f $ sty tmpDir)
[ "utils", "Hets/utils"
withinDirectory tmpDir $ do
(ex1, out1, err1) <- executeProcess "pdflatex" [tmpFile] ""
(ex2, out2, err2) <- executeProcess "pdflatex" [tmpFile] ""
let pdfFile = replaceExtension tmpFile "pdf"
pdf <- doesFileExist pdfFile
if ex1 == ExitSuccess && ex2 == ExitSuccess && pdf then do
pdfHdl <- openBinaryFile pdfFile ReadMode
str <- hGetContents pdfHdl
when (length str < 0) $ putStrLn "pdf file too large"
hClose pdfHdl
return (pdfC, str)
else return (textC, "could not create pdf:\n"
++ unlines [out1, err1, out2, err2])
increaseUsage :: Cache -> Session -> ResultT IO (Session, Int)
increaseUsage sessRef sess = do
time <- lift getCurrentTime
let s2 = sess { usage = usage sess + 1, lastAccess = time }
k <- lift $ addSess sessRef s2
return (s2, k)
getDGraph :: HetcatsOpts -> Cache -> DGQuery
-> ResultT IO (Session, Int)
getDGraph opts sessRef dgQ = do
(m, lm) <- lift $ readIORef sessRef
case dgQ of
NewDGQuery file cmdList -> do
let cl = mapMaybe (\ s -> find ((== s) . cmdlGlobCmd)
$ map fst allGlobLibAct) cmdList
mf <- lift $ getContentAndFileType opts file
case mf of
Left err -> fail err
Right (_, mh, f, cont) -> case mh of
Nothing -> fail $ "could determine checksum for: " ++ file
Just h -> let q = file : h : cmdList in
case Map.lookup q lm of
Just sess -> increaseUsage sessRef sess
Nothing -> do
(ln, le1) <- if isDgXmlFile opts f cont
then readDGXmlR opts f Map.empty
else anaSourceFile logicGraph opts
{ outputToStdout = False }
Set.empty emptyLibEnv emptyDG file
le2 <- foldM (\ e c -> liftR
$ fromJust (lookup c allGlobLibAct) ln e) le1 cl
time <- lift getCurrentTime
let sess = Session
{ sessLibEnv = le2
, sessLibName = ln
, sessPath = q
, sessKey = 0 -- to be updated by addNewSess
, sessStart = time
, lastAccess = time
, usage = 1 }
k <- lift $ addNewSess sessRef sess
return (sess, k)
DGQuery k _ -> case IntMap.lookup k m of
Nothing -> fail "unknown development graph"
Just sess -> increaseUsage sessRef sess
getSVG :: String -> String -> DGraph -> ResultT IO String
getSVG title url dg = do
(exCode, out, err) <- lift $ executeProcess "dot" ["-Tsvg"]
$ dotGraph title False url dg
case exCode of
ExitSuccess -> liftR $ extractSVG dg out
_ -> fail err
enrichSVG :: DGraph -> Element -> Element
enrichSVG dg e = processSVG dg $ fromElement e
processSVG :: DGraph -> Cursor -> Element
processSVG dg c = case nextDF c of
Nothing -> case toTree (root c) of
Elem e -> e
_ -> error "processSVG"
Just c2 -> processSVG dg
$ modifyContent (addSVGAttribs dg) c2
nodeAttrib :: DGNodeLab -> String
nodeAttrib l = let nt = getRealDGNodeType l in
(if isRefType nt then "Ref" else "")
++ (if hasSenKind (const True) l then
(if isProvenNode nt then "P" else "Unp") ++ "roven"
++ if isProvenCons nt then "Cons" else ""
else "LocallyEmpty")
++ (if isInternalSpec nt then "Internal" else "")
++ if labelHasHiding l then "HasIngoingHidingLink" else ""
edgeAttrib :: DGLinkLab -> String
edgeAttrib l = show (pretty $ dgl_type l) ++
if dglPending l then "IncompleteProofChain" else ""
addSVGAttribs :: DGraph -> Content -> Content
addSVGAttribs dg c = case c of
Elem e -> case getAttrVal "id" e of
Just istr | isNat istr -> let i = read istr in
case getAttrVal "class" e of
Just "node" -> case lab (dgBody dg) i of
Nothing -> c
Just l -> Elem $ add_attr (mkAttr "type" $ nodeAttrib l) e
Just "edge" -> case getDGLinksById (EdgeId i) dg of
[(_, _, l)] ->
Elem $ add_attr (mkAttr "type" $ edgeAttrib l) e
_ -> c
_ -> c
_ -> c
_ -> c
extractSVG :: DGraph -> String -> Result String
extractSVG dg str = case parseXMLDoc str of
Nothing -> fail "did not recognize svg element"
Just e -> return $ showTopElement $ enrichSVG dg e
cmpFilePath :: FilePath -> FilePath -> Ordering
cmpFilePath f1 f2 = case comparing hasTrailingPathSeparator f2 f1 of
EQ -> compare f1 f2
c -> c
getHetsResponse :: HetcatsOpts -> [FileInfo BS.ByteString]
-> Cache -> [String] -> [QueryPair] -> WebResponse
getHetsResponse opts updates sessRef pathBits query respond = do
Result ds ms <- liftIO $ runResultT $ case anaUri pathBits query
$ updateS : globalCommands of
Left err -> fail err
Right q -> getHetsResult opts updates sessRef q
respond $ case ms of
Just (t, s) | not $ hasErrors ds -> mkOkResponse t s
_ -> mkResponse textC status422 $ showRelDiags 1 ds
getHetsResult :: HetcatsOpts -> [FileInfo BS.ByteString]
-> Cache -> Query.Query -> ResultT IO (String, String)
getHetsResult opts updates sessRef (Query dgQ qk) = do
sk@(sess, k) <- getDGraph opts sessRef dgQ
let libEnv = sessLibEnv sess
(ln, dg) <- maybe (fail "unknown development graph") return
$ sessGraph dgQ sess
let title = libToFileName ln
let svg = getSVG title ('/' : show k) dg
case qk of
DisplayQuery ms -> case ms of
Just "svg" -> fmap (\ s -> (svgC, s)) svg
Just "xml" -> liftR $ return (xmlC, ppTopElement
$ ToXml.dGraph opts libEnv ln dg)
Just "json" -> liftR $ return (jsonC, ppJson
$ ToJson.dGraph opts libEnv ln dg)
Just "dot" -> liftR $ return
(dotC, dotGraph title False title dg)
Just "symbols" -> liftR $ return (xmlC, ppTopElement
$ ToXml.dgSymbols dg)
Just "session" -> liftR $ return (htmlC, ppElement
$ aRef (mkPath sess ln k) $ show k)
Just str | elem str ppList
-> ppDGraph dg $ lookup str $ zip ppList prettyList
_ -> sessAns ln svg sk
GlProvers mp mt -> lift $
fmap (\ l -> (xmlC, l)) $ getFullProverList mp mt dg
GlTranslations ->
lift $ fmap (\ l -> (xmlC, l)) $ getFullComorphList dg
GlShowProverWindow prOrCons -> showAutoProofWindow dg k prOrCons
GlAutoProve (ProveCmd prOrCons incl mp mt tl nds xForm axioms) -> do
(newLib, nodesAndProofResults) <- proveMultiNodes prOrCons libEnv ln dg incl mp mt tl nds axioms
let sens = foldr (\(dgNodeName, proofResults) res ->
formatResultsAux xForm prOrCons dgNodeName proofResults : res
) [] nodesAndProofResults
if null sens then return (textC, "nothing to prove") else do
lift $ nextSess sess sessRef newLib k
return (htmlC, formatResultsMultiple xForm k sens prOrCons)
GlobCmdQuery s ->
case find ((s ==) . cmdlGlobCmd . fst) allGlobLibAct of
Nothing -> if s == updateS then
case filter ((== ".xupdate") . takeExtension . B8.unpack
. fileName) updates of
ch : _ -> do
let str = BS.unpack $ fileContent ch
(newLn, newLib) <- dgXUpdate opts str libEnv ln dg
newSess <- lift $ nextSess sess sessRef newLib k
sessAns newLn svg (newSess, k)
[] -> sessAns ln svg sk
else fail "getHetsResult.GlobCmdQuery"
Just (_, act) -> do
newLib <- liftR $ act ln libEnv
newSess <- lift $ nextSess sess sessRef newLib k
-- calculate updated SVG-view from modified development graph
let newSvg = getSVG title ('/' : show k)
$ lookupDGraph ln newLib
sessAns ln newSvg (newSess, k)
NodeQuery ein nc -> do
nl@(i, dgnode) <- case ein of
Right n -> case lookupNodeByName n dg of
p : _ -> return p
[] -> fail $ "no node name: " ++ n
Left i -> case lab (dgBody dg) i of
Nothing -> fail $ "no node id: " ++ show i
Just dgnode -> return (i, dgnode)
let fstLine = (if isDGRef dgnode then ("reference " ++) else
if isInternalNode dgnode then ("internal " ++) else id)
"node " ++ getDGNodeName dgnode ++ " (#" ++ show i ++ ")\n"
ins = getImportNames dg i
showN d = showGlobalDoc (globalAnnos dg) d "\n"
case nc of
NcCmd cmd | elem cmd [Query.Node, Info, Symbols]
-> case cmd of
Symbols -> return (xmlC, ppTopElement
$ showSymbols ins (globalAnnos dg) dgnode)
_ -> return (textC, fstLine ++ showN dgnode)
_ -> case maybeResult $ getGlobalTheory dgnode of
Nothing -> fail $
"cannot compute global theory of:\n" ++ fstLine
Just gTh -> let subL = sublogicOfTh gTh in case nc of
ProveNode (ProveCmd pm incl mp mt tl thms xForm axioms) ->
case pm of
GlProofs -> do
(newLib, proofResults) <- proveNode libEnv ln dg nl
gTh subL incl mp mt tl thms axioms
if null proofResults then return (textC, "nothing to prove")
else do
lift $ nextSess sess sessRef newLib k
return (htmlC,
formatResults xForm k i . unode "results" $ formatGoals True proofResults)
GlConsistency -> do
(newLib, [(_, res, txt, _)]) <- consNode libEnv ln dg nl
subL incl mp mt tl
lift $ nextSess sess sessRef newLib k
return (xmlC, ppTopElement $ formatConsNode res txt)
_ -> case nc of
NcCmd Query.Theory -> lift $ fmap (\ t -> (htmlC, t))
$ showGlobalTh dg i gTh k fstLine
NcProvers mp mt -> lift $
fmap (\ l -> (xmlC, formatProvers mp l))
$ case mp of
GlProofs -> getProversAux mt subL
GlConsistency -> getConsCheckersAux mt subL
NcTranslations mp -> lift $
fmap (\ l -> (xmlC, l)) $ getComorphs mp subL
_ -> error "getHetsResult.NodeQuery."
EdgeQuery i _ ->
case getDGLinksById (EdgeId i) dg of
[e@(_, _, l)] ->
return (textC, showLEdge e ++ "\n" ++ showDoc l "")
[] -> fail $ "no edge found with id: " ++ show i
_ -> fail $ "multiple edges found with id: " ++ show i
formatGoals :: Bool -> [(String, String, String, Maybe (ProofStatus G_proof_tree))] -> [Element]
formatGoals includeDetails sens =
map (\ (n, e, d, mps) -> unode "goal"
([unode "name" n, unode "result" e]
++ [unode "details" d | includeDetails]
++ case mps of
Nothing -> []
Just ps -> formatProofStatus ps)) sens
formatProofStatus :: ProofStatus G_proof_tree -> [Element]
formatProofStatus ps =
[ unode "usedProver" $ usedProver ps
-- `read` makes this type-unsafe
, unode "tacticScript" $ formatTacticScript $ read $ (\(TacticScript ts) -> ts) $ tacticScript ps
, unode "proofTree" $ show $ proofTree ps
, unode "usedTime" $ formatUsedTime $ usedTime ps
, unode "usedAxioms" $ formatUsedAxioms $ usedAxioms ps
, unode "proverOutput" $ formatProverOutput $ proofLines ps
]
formatProverOutput :: [String] -> CData
formatProverOutput ls =
CData { cdVerbatim = CDataVerbatim
, cdData = unlines ls
, cdLine = Nothing
}
formatTacticScript :: ATPTacticScript -> [Element]
formatTacticScript ts =
[ unode "timeLimit" $ show $ tsTimeLimit ts
, unode "extraOpts" $ map (\opt -> unode "option" opt) $ tsExtraOpts ts
]
formatUsedTime :: TimeOfDay -> [Element]
formatUsedTime tod =
[ unode "seconds" $ init $ show $ timeOfDayToTime tod
, unode "components"
[ unode "hours" $ show $ todHour tod
, unode "minutes" $ show $ todMin tod
, unode "seconds" $ show $ todSec tod
]
]
formatUsedAxioms :: [String] -> [Element]
formatUsedAxioms = map (\axiom -> unode "axiom" axiom)
formatConsNode :: String -> String -> Element
formatConsNode res txt = add_attr (mkAttr "state" res) $ unode "result" txt
formatResultsMultiple :: Bool -> Int -> [Element] -> ProverMode -> String
formatResultsMultiple xForm sessId rs prOrCons =
if xForm then ppTopElement $ unode "Results" rs else let
goBack1 = case prOrCons of
GlConsistency -> aRef ('/' : show sessId ++ "?consistency") "return"
GlProofs -> aRef ('/' : show sessId ++ "?autoproof") "return"
goBack2 = aRef ('/' : show sessId) "return to DGraph"
in ppElement $ unode "html" ( unode "head"
[ unode "title" "Results", add_attr ( mkAttr "type" "text/css" )
$ unode "style" resultStyles, goBack1, plain " ", goBack2 ]
: foldr (\ el r -> unode "h4" (qName $ elName el) : el : r) [] rs )
-- | display results of proving session (single node)
formatResults :: Bool -> Int -> Int -> Element -> String
formatResults xForm sessId i rs =
if xForm || sessId <= 0 then ppTopElement rs else let
goBack1 = aRef ('/' : show sessId ++ "?theory=" ++ show i) "return to Theory"
goBack2 = aRef ('/' : show sessId) "return to DGraph"
in ppElement $ unode "html" [ unode "head"
[ unode "title" "Results", add_attr ( mkAttr "type" "text/css" )
$ unode "style" resultStyles, goBack1, plain " ", goBack2 ], rs ]
resultStyles :: String
resultStyles = unlines
[ "results { margin: 5px; padding:5px; display:block; }"
, "goal { display:block; margin-left:15px; }"
, "name { display:inline; margin:5px; padding:10px; font-weight:bold; }"
, "result { display:inline; padding:30px; }" ]
showBool :: Bool -> String
showBool = map toLower . show
{- | displays the global theory for a node with the option to prove theorems
and select proving options -}
showGlobalTh :: DGraph -> Int -> G_theory -> Int -> String -> IO String
showGlobalTh dg i gTh sessId fstLine = case simplifyTh gTh of
sGTh@(G_theory lid _ (ExtSign sig _) _ thsens _) -> let
ga = globalAnnos dg
-- links to translations and provers xml view
transBt = aRef ('/' : show sessId ++ "?translations=" ++ show i)
"translations"
prvsBt = aRef ('/' : show sessId ++ "?provers=" ++ show i) "provers"
headr = unode "h3" fstLine
thShow = renderHtml ga $ vcat $ map (print_named lid) $ toNamedList thsens
sbShow = renderHtml ga $ pretty sig
in case getThGoals sGTh of
-- show simple view if no goals are found
[] -> return $ mkHtmlElem fstLine [ headr, transBt, prvsBt,
unode "h4" "Theory" ] ++ sbShow ++ "\n<br />" ++ thShow
-- else create proving functionality
gs -> do
-- create list of theorems, selectable for proving
let thmSl = map (\ (nm, bp) ->
let gSt = maybe GOpen basicProofToGStatus bp
in add_attrs
[ mkAttr "type" "checkbox", mkAttr "name" $ escStr nm
, mkAttr "unproven" $ showBool $ elem gSt [GOpen, GTimeout]]
$ unode "input" $ nm ++ " (" ++ showSimple gSt ++ ")" ) gs
-- select unproven, all or none theorems by button
(btUnpr, btAll, btNone, jvScr1) = showSelectionButtons True
-- create prove button and prover/comorphism selection
(prSl, cmrSl, jvScr2) <- showProverSelection GlProofs [sublogicOfTh gTh]
let (prBt, timeout) = showProveButton True
-- hidden param field
hidStr = add_attrs [ mkAttr "name" "prove"
, mkAttr "type" "hidden", mkAttr "style" "display:none;"
, mkAttr "value" $ show i ] inputNode
-- combine elements within a form
thmMenu = let br = unode "br " () in add_attrs
[ mkAttr "name" "thmSel", mkAttr "method" "get"]
. unode "form"
$ [hidStr, prSl, cmrSl, br, btUnpr, btAll, btNone, timeout]
++ intersperse br (prBt : thmSl)
-- save dg and return to svg-view
goBack = aRef ('/' : show sessId) "return to DGraph"
return $ mkHtmlElemScript fstLine (jvScr1 ++ jvScr2)
[ headr, transBt, prvsBt, plain " ", goBack, unode "h4" "Theorems"
, thmMenu, unode "h4" "Theory" ] ++ sbShow ++ "\n<br />" ++ thShow
-- | show window of the autoproof function
showAutoProofWindow :: DGraph -> Int -> ProverMode
-> ResultT IO (String, String)
showAutoProofWindow dg sessId prOrCons = let
dgnodes = labNodesDG dg
-- some parameters need to be different for consistency and autoproof mode
(prMethod, isProver, title, nodeSel) = case prOrCons of
GlProofs -> ("proof", True, "automatic proofs"
, map (\ fn -> add_attrs [ mkAttr "type" "checkbox"
, mkAttr "unproven" $ showBool $ not $ allProved fn
, mkAttr "name" $ escStr $ name fn ]
$ unode "input" $ showHtml fn) $ initFNodes dgnodes)
-- TODO sort out nodes with no sentences!
GlConsistency -> ("cons", False, "consistency checker"
, map (\ (_, dgn) ->
let cstat = getConsistencyOf dgn
nm = getDGNodeName dgn in add_attrs [ mkAttr "type" "checkbox"
, mkAttr "unproven" $ showBool $ sType cstat == CSUnchecked
, mkAttr "name" nm]
$ unode "input" (cStatusToPrefix cstat ++ nm)) dgnodes)
-- generate param field for the query string, invisible to the user
hidStr = add_attrs [ mkAttr "name" "autoproof"
, mkAttr "type" "hidden", mkAttr "style" "display:none;"
, mkAttr "value" prMethod ] inputNode
-- select unproven, all or no nodes by button
(btUnpr, btAll, btNone, jvScr1) = showSelectionButtons isProver
(prBt, timeout) = showProveButton isProver
include = add_attrs [ mkAttr "type" "checkbox", mkAttr "checked" "true"
, mkAttr "name" "includetheorems"] $ unode "input" "include Theorems"
goBack = aRef ('/' : show sessId) "return to DGraph"
in do
(jvScr2, nodeMenu) <- case dgnodes of
-- return simple feedback if no nodes are present
[] -> return ("", plain "nothing to prove (graph has no nodes)")
-- otherwise
(_, nd) : _ -> case maybeResult $ getGlobalTheory nd of
Nothing -> fail $ "cannot compute global theory of:\n" ++ show nd
Just gTh -> do
let br = unode "br " ()
(prSel, cmSel, jvSc) <- lift $ showProverSelection prOrCons
[sublogicOfTh gTh]
return (jvSc, add_attrs
[ mkAttr "name" "nodeSel", mkAttr "method" "get" ]
. unode "form" $
[ hidStr, prSel, cmSel, br, btAll, btNone, btUnpr, timeout
, include ] ++ intersperse br (prBt : nodeSel))
return (htmlC, mkHtmlElemScript title (jvScr1 ++ jvScr2)
[ goBack, plain " ", nodeMenu ])
showProveButton :: Bool -> (Element, Element)
showProveButton isProver = (prBt, timeout) where
prBt = [ mkAttr "type" "submit", mkAttr "value"
$ if isProver then "Prove" else "Check"]
`add_attrs` inputNode
-- create timeout field
timeout = add_attrs [mkAttr "type" "text", mkAttr "name" "timeout"
, mkAttr "value" "1", mkAttr "size" "3"]
$ unode "input" "Sec/Goal "
-- | select unproven, all or none theorems by button
showSelectionButtons :: Bool -> (Element, Element, Element, String)
showSelectionButtons isProver = (selUnPr, selAll, selNone, jvScr)
where prChoice = if isProver then "SPASS" else "darwin"
selUnPr = add_attrs [mkAttr "type" "button"
, mkAttr "value" $ if isProver then "Unproven" else "Unchecked"
, mkAttr "onClick" "chkUnproven()"] inputNode
selAll = add_attrs [mkAttr "type" "button", mkAttr "value" "All"
, mkAttr "onClick" "chkAll(true)"] inputNode
selNone = add_attrs [mkAttr "type" "button", mkAttr "value" "None"
, mkAttr "onClick" "chkAll(false)"] inputNode
-- javascript features
jvScr = unlines
-- select unproven goals by button
[ "\nfunction chkUnproven() {"
, " var e = document.forms[0].elements;"
, " for (i = 0; i < e.length; i++) {"
, " if( e[i].type == 'checkbox'"
, " && e[i].name != 'includetheorems' )"
, " e[i].checked = e[i].getAttribute('unproven') == 'true';"
, " }"
-- select or deselect all theorems by button
, "}\nfunction chkAll(b) {"
, " var e = document.forms[0].elements;"
, " for (i = 0; i < e.length; i++) {"
, " if( e[i].type == 'checkbox'"
, " && e[i].name != 'includetheorems' ) e[i].checked = b;"
, " }"
-- autoselect SPASS if possible
, "}\nwindow.onload = function() {"
, " prSel = document.forms[0].elements.namedItem('prover');"
, " prs = prSel.getElementsByTagName('option');"
, " for ( i=0; i<prs.length; i++ ) {"
, " if( prs[i].value == '" ++ prChoice ++ "' ) {"
, " prs[i].selected = 'selected';"
, " updCmSel('" ++ prChoice ++ "');"
, " return;"
, " }"
, " }"
-- if SPASS unable, select first one in list
, " prs[0].selected = 'selected';"
, " updCmSel( prs[0].value );"
, "}" ]
-- | create prover and comorphism menu and combine them using javascript
showProverSelection :: ProverMode -> [G_sublogics]
-> IO (Element, Element, String)
showProverSelection prOrCons subLs = do
let jvScr = unlines
-- the chosen prover is passed as param
[ "\nfunction updCmSel(pr) {"
, " var cmrSl = document.forms[0].elements.namedItem('translation');"
-- then, all selectable comorphisms are gathered and iterated
, " var opts = cmrSl.getElementsByTagName('option');"
-- try to keep current comorph-selection
, " var selAccept = false;"
, " for( var i = opts.length-1; i >= 0; i-- ) {"
, " var cmr = opts.item( i );"
-- the list of supported provers is extracted
, " var prs = cmr.getAttribute('4prover').split(';');"
, " var pFit = false;"
, " for( var j = 0; ! pFit && j < prs.length; j++ ) {"
, " pFit = prs[j] == pr;"
, " }"
-- if prover is supported, remove disabled attribute
, " if( pFit ) {"
, " cmr.removeAttribute('disabled');"
, " selAccept = selAccept || cmr.selected;"
-- else create and append a disabled attribute
, " } else {"
, " var ds = document.createAttribute('disabled');"
, " ds.value = 'disabled';"
, " cmr.setAttributeNode(ds);"
, " }"
, " }"
-- check if selected comorphism fits, and select fst. in list otherwise
, " if( ! selAccept ) {"
, " for( i = 0; i < opts.length; i++ ) {"
, " if( ! opts.item(i).disabled ) {"
, " opts.item(i).selected = 'selected';"
, " return;"
, " }"
, " }"
, " }"
, "}" ]
pcs <- mapM ((case prOrCons of
GlProofs -> getProversAux
GlConsistency -> getConsCheckersAux) Nothing) subLs
let allPrCm = nub $ concat pcs
-- create prover selection (drop-down)
prs = add_attr (mkAttr "name" "prover") $ unode "select" $ map (\ p ->
add_attrs [mkAttr "value" p, mkAttr "onClick"
$ "updCmSel('" ++ p ++ "')"]
$ unode "option" p) $ showProversOnly allPrCm
-- create comorphism selection (drop-down)
cmrs = add_attr (mkAttr "name" "translation") $ unode "select"
$ map (\ (cm, ps) -> let c = showComorph cm in
add_attrs [mkAttr "value" c, mkAttr "4prover" $ intercalate ";" ps]
$ unode "option" c) allPrCm
return (prs, cmrs, jvScr)
showHtml :: FNode -> String
showHtml fn = name fn ++ " " ++ goalsToPrefix (toGtkGoals fn)
getAllAutomaticProvers :: G_sublogics -> IO [(G_prover, AnyComorphism)]
getAllAutomaticProvers subL =
getUsableProvers ProveCMDLautomatic subL logicGraph
filterByProver :: Maybe String -> [(G_prover, AnyComorphism)]
-> [(G_prover, AnyComorphism)]
filterByProver mp = case mp of
Nothing -> id
Just p -> filter ((== p) . getWebProverName . fst)
filterByComorph :: Maybe String -> [(a, AnyComorphism)]
-> [(a, AnyComorphism)]
filterByComorph mt = case mt of
Nothing -> id
Just c -> filter ((== c) . showComorph . snd)
getProverAndComorph :: Maybe String -> Maybe String -> G_sublogics
-> IO [(G_prover, AnyComorphism)]
getProverAndComorph mp mc subL = do
ps <- getFilteredProvers mc subL
let spps = case filterByProver (Just "SPASS") ps of
[] -> ps
fps -> fps
return $ case mp of
Nothing -> spps
_ -> filterByProver mp ps
showComorph :: AnyComorphism -> String
showComorph (Comorphism cid) = removeFunnyChars . drop 1 . dropWhile (/= ':')
. map (\ c -> if c == ';' then ':' else c)
$ language_name cid
removeFunnyChars :: String -> String
removeFunnyChars = filter (\ c -> isAlphaNum c || elem c "_.:-")
getWebProverName :: G_prover -> String
getWebProverName = removeFunnyChars . getProverName
getFullProverList :: ProverMode -> Maybe String -> DGraph -> IO String
getFullProverList mp mt = fmap (formatProvers mp) . foldM
(\ ls (_, nd) -> maybe (return ls) (fmap (++ ls) . case mp of
GlProofs -> getProversAux mt
GlConsistency -> getConsCheckersAux mt
. sublogicOfTh)
$ maybeResult $ getGlobalTheory nd) [] . labNodesDG
showProversOnly :: [(AnyComorphism, [String])] -> [String]
showProversOnly = nubOrd . concatMap snd
groupOnSnd :: Eq b => (a -> c) -> [(a, b)] -> [(b, [c])]
groupOnSnd f =
map (\ l@((_, b) : _) -> (b, map (f . fst) l)) . groupBy (on (==) snd)
{- | gather provers and comorphisms and resort them to
(comorhism, supported provers) while not changing orig comorphism order -}
getProversAux :: Maybe String -> G_sublogics -> IO [(AnyComorphism, [String])]
getProversAux mt = fmap (groupOnSnd getWebProverName) . getFilteredProvers mt
getFilteredProvers :: Maybe String -> G_sublogics
-> IO [(G_prover, AnyComorphism)]
getFilteredProvers mt = fmap (filterByComorph mt) . getAllAutomaticProvers
formatProvers :: ProverMode -> [(AnyComorphism, [String])] -> String
formatProvers pm = let
tag = case pm of
GlProofs -> "prover"
GlConsistency -> "consistency-checker"
in ppTopElement . unode (tag ++ "s") . map (unode tag)
. showProversOnly
-- | retrieve a list of consistency checkers
getConsCheckersAux :: Maybe String -> G_sublogics
-> IO [(AnyComorphism, [String])]
getConsCheckersAux mt = fmap (groupOnSnd getCcName) . getFilteredConsCheckers mt
getFilteredConsCheckers :: Maybe String -> G_sublogics
-> IO [(G_cons_checker, AnyComorphism)]
getFilteredConsCheckers mt = fmap
(filterByComorph mt . filter (getCcBatch . fst))
. getConsCheckers . findComorphismPaths logicGraph
getComorphs :: Maybe String -> G_sublogics -> IO String
getComorphs mp = fmap (formatComorphs . filterByProver mp)
. getAllAutomaticProvers
getFullComorphList :: DGraph -> IO String
getFullComorphList =
fmap formatComorphs . foldM
(\ ls (_, nd) -> maybe (return ls)
(fmap (++ ls) . getAllAutomaticProvers . sublogicOfTh)
$ maybeResult $ getGlobalTheory nd) [] . labNodesDG
formatComorphs :: [(G_prover, AnyComorphism)] -> String
formatComorphs = ppTopElement . unode "translations"
. map (unode "comorphism") . nubOrd . map (showComorph . snd)
consNode :: LibEnv -> LibName -> DGraph -> (Int, DGNodeLab)
-> G_sublogics -> Bool -> Maybe String -> Maybe String -> Maybe Int
-> ResultT IO (LibEnv, [(String, String, String, Maybe (ProofStatus G_proof_tree))])
consNode le ln dg nl@(i, lb) subL useTh mp mt tl = do
consList <- lift $ getFilteredConsCheckers mt subL
let findCC x = filter ((== x ) . getCcName . fst) consList
mcc = maybe (findCC "darwin") findCC mp
case mcc of
[] -> fail "no cons checker found"
((cc, c) : _) -> lift $ do
cstat <- consistencyCheck useTh cc c ln le dg nl $ fromMaybe 1 tl
-- Consistency Results are stored in LibEnv via DGChange object
let cSt = sType cstat
le'' = if cSt == CSUnchecked then le else
Map.insert ln (changeDGH dg $ SetNodeLab lb
(i, case cSt of
CSInconsistent -> markNodeInconsistent "" lb
CSConsistent -> markNodeConsistent "" lb
_ -> lb)) le
return (le'', [(" ", drop 2 $ show cSt, show cstat, Nothing)])
proveNode :: LibEnv -> LibName -> DGraph -> (Int, DGNodeLab) -> G_theory
-> G_sublogics -> Bool -> Maybe String -> Maybe String -> Maybe Int
-> [String] -> [String] -> ResultT IO (LibEnv, [ProofResult])
proveNode le ln dg nl gTh subL useTh mp mt tl thms axioms = do
ps <- lift $ getProverAndComorph mp mt subL
case ps of
[] -> fail "no matching translation or prover found"
cp : _ -> do
let ks = map fst $ getThGoals gTh
diffs = Set.difference (Set.fromList thms)
$ Set.fromList ks
unless (Set.null diffs) . fail $ "unknown theorems: " ++ show diffs
when (null thms && null ks) $ fail "no theorems to prove"
((nTh, sens), (_, proofStatuses)) <- autoProofAtNode useTh (maybe 1 (max 1) tl)
(if null thms then ks else thms) axioms gTh cp
return (if null sens then le else
Map.insert ln (updateLabelTheory le dg nl nTh) le, combineSensAndProofStatus sens proofStatuses)
combineSensAndProofStatus :: [(String, String, String)] -> [ProofStatus G_proof_tree] -> [ProofResult]
combineSensAndProofStatus sens proofStatuses = let-- zipWith (\(name, e, d) ps -> (n, e, d, Just ps))
findProofStatusByName :: String -> Maybe (ProofStatus G_proof_tree)
findProofStatusByName n = case filter (\ps -> n == goalName ps) proofStatuses of
[] -> Nothing
(ps:_) -> Just ps
combineSens :: (String, String, String) -> ProofResult
combineSens (n, e, d) = (n, e, d, findProofStatusByName n)
in map combineSens sens
-- run over multiple dgnodes and prove available goals for each
proveMultiNodes :: ProverMode -> LibEnv -> LibName -> DGraph -> Bool
-> Maybe String -> Maybe String -> Maybe Int -> [String] -> [String]
-> ResultT IO (LibEnv, [(String, [ProofResult])])
proveMultiNodes pm le ln dg useTh mp mt tl nodeSel axioms = let
runProof :: LibEnv -> G_theory -> (Int, DGNodeLab) -> ResultT IO (LibEnv, [ProofResult])
runProof le' gTh nl = let
subL = sublogicOfTh gTh
dg' = lookupDGraph ln le' in case pm of
GlConsistency -> consNode le' ln dg' nl subL useTh mp mt tl
GlProofs -> proveNode le' ln dg' nl gTh subL useTh mp mt tl (map fst $ getThGoals gTh) axioms
nodes2check = filter (case nodeSel of
[] -> case pm of
GlConsistency -> const True
GlProofs -> hasOpenGoals . snd
_ -> (`elem` nodeSel) . getDGNodeName . snd) $ labNodesDG dg
in foldM
(\ (le', res) nl@(_, dgn) -> case maybeResult $ getGlobalTheory dgn of
Nothing -> fail $
"cannot compute global theory of:\n" ++ show dgn
Just gTh -> do
(le'', proofResults) <- runProof le' gTh nl
return (le'', (getDGNodeName dgn, proofResults) : res))
(le, []) nodes2check
formatResultsAux :: Bool -> ProverMode -> String -> [ProofResult] -> Element
formatResultsAux xF pm nm sens = unode nm $ case (sens, pm) of
([(_, e, d, _)], GlConsistency) | xF -> formatConsNode e d
_ -> unode "results" $ formatGoals xF sens
mkPath :: Session -> LibName -> Int -> String
mkPath sess l k =
'/' : concat [ libToFileName l ++ "?session="
| l /= sessLibName sess ]
++ show k
extPath :: Session -> LibName -> Int -> String
extPath sess l k = mkPath sess l k ++
if l /= sessLibName sess then "&" else "?"
globalCommands :: [String]
globalCommands = map (cmdlGlobCmd . fst) allGlobLibAct
sessAns :: LibName -> ResultT IO String -> (Session, Int)
-> ResultT IO (String, String)
sessAns libName svgComp (sess, k) =
svgComp >>= \ svg -> return $ sessAnsAux libName svg (sess, k)
sessAnsAux :: LibName -> String -> (Session, Int) -> (String, String)
sessAnsAux libName svg (sess, k) =
let libEnv = sessLibEnv sess
ln = libToFileName libName
libref l =
aRef (mkPath sess l k) (libToFileName l) : map (\ d ->
aRef (extPath sess l k ++ d) d) displayTypes
libPath = extPath sess libName k
ref d = aRef (libPath ++ d) d
autoProofBt = aRef ('/' : show k ++ "?autoproof") "automatic proofs"
consBt = aRef ('/' : show k ++ "?consistency") "consistency checker"
-- the html quicklinks to nodes and edges have been removed with R.16827
in (htmlC, htmlHead ++ mkHtmlElem
('(' : shows k ")" ++ ln)
(bold ("library " ++ ln)
: map ref displayTypes
++ menuElement : loadXUpdate (libPath ++ updateS)
: plain "tools:" : mkUnorderedList [autoProofBt, consBt]
: plain "commands:"
: mkUnorderedList (map ref globalCommands)
: plain "imported libraries:"
: [mkUnorderedList $ map libref $ Map.keys libEnv]
) ++ svg)
getHetsLibContent :: HetcatsOpts -> String -> [QueryPair] -> IO [Element]
getHetsLibContent opts dir query = do
let hlibs = libdirs opts
ds <- if null dir || isAbsolute dir then return hlibs else
filterM doesDirectoryExist $ map (</> dir) hlibs
fs <- fmap (sortBy cmpFilePath . filter (not . isPrefixOf ".") . concat)
$ mapM getDirContents ds
return $ map (mkHtmlRef query) $ getParent dir : fs
getParent :: String -> String
getParent = addTrailingPathSeparator . ("/" </>) . takeDirectory
. dropTrailingPathSeparator
-- | a variant that adds a trailing slash
getDirContents :: FilePath -> IO [FilePath]
getDirContents d = do
fs <- getDirectoryContents d
mapM (\ f -> doesDirectoryExist (d </> f) >>= \ b -> return
$ if b then addTrailingPathSeparator f else f) fs
aRef :: String -> String -> Element
aRef lnk txt = add_attr (mkAttr "href" lnk) $ unode "a" txt
mkHtmlRef :: [QueryPair] -> String -> Element
mkHtmlRef query entry = unode "dir" $ aRef
(entry ++ if null query then "" else '?' : intercalate "&"
(map (\ (x, ms) -> x ++ maybe "" ('=' :) ms) query)) entry
mkUnorderedList :: Node t => [t] -> Element
mkUnorderedList = unode "ul" . map (unode "li")
italic :: String -> Element
italic = unode "i"
bold :: String -> Element
bold = unode "b"
plain :: String -> Element
plain = unode "p"
headElems :: String -> [Element]
headElems path = let d = "default" in unode "strong" "Choose a display type:" :
map (\ q -> aRef (if q == d then "/" </> path else '?' : q) q)
(d : displayTypes)
++ [ unode "p"
[ unode "small" "internal command overview as XML:"
, menuElement ]
, plain $ "Select a local file as library or "
++ "enter a HetCASL specification in the text area and press \"submit\""
++ ", or browse through our Hets-lib library below."
, uploadHtml ]
menuElement :: Element
menuElement = aRef "?menus" "menus"
htmlHead :: String
htmlHead =
let dtd = "PUBLIC \"-//W3C//DTD XHTML 1.0 Transitional//EN\""
in concat ["<!DOCTYPE html ", dtd, " ", url, ">\n"]
inputNode :: Element
inputNode = unode "input" ()
loadNode :: String -> Element
loadNode nm = add_attrs
[ mkAttr "type" "file"
, mkAttr "name" nm
, mkAttr "size" "40"]
inputNode
submitNode :: Element
submitNode = add_attrs
[ mkAttr "type" "submit"
, mkAttr "value" "submit"]
inputNode
mkForm :: String -> [Element] -> Element
mkForm a = add_attrs
[ mkAttr "action" a
, mkAttr "enctype" "multipart/form-data"
, mkAttr "method" "post" ]
. unode "form"
uploadHtml :: Element
uploadHtml = mkForm "/"
[ loadNode "file"
, unode "p" $ add_attrs
[ mkAttr "cols" "68"
, mkAttr "rows" "22"
, mkAttr "name" "content" ] $ unode "textarea" ""
, submitNode ]
loadXUpdate :: String -> Element
loadXUpdate a = mkForm a
[ italic xupdateS
, loadNode xupdateS
, italic "impacts"
, loadNode "impacts"
, submitNode ]