{-| Module : Gargantext.Database.Flow Description : Database Flow Copyright : (c) CNRS, 2017-Present License : AGPL + CECILL v3 Maintainer : team@gargantext.org Stability : experimental Portability : POSIX Map (NgramsId, NodeId) -> insert data NgramsType = Sources | Authors | Terms nodes_ngrams : column type, column list documents sources authors -} {-# LANGUAGE DeriveGeneric #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} module Gargantext.Database.Flow (flowDatabase, ngrams2list) where import GHC.Show (Show) import System.FilePath (FilePath) import Data.Maybe (Maybe(..), catMaybes) import Data.Text (Text, splitOn) import Data.Map (Map, lookup) import Data.Tuple.Extra (both, second) import qualified Data.Map as DM import Gargantext.Core.Types (NodePoly(..), ListType(..), listTypeId) import Gargantext.Database.Bashql (runCmd') -- , del) import Gargantext.Database.Ngrams (insertNgrams, Ngrams(..), NgramsT(..), NgramsIndexed(..), indexNgramsT, ngramsTypeId, NgramsType(..), text2ngrams) import Gargantext.Database.Node (getRoot, mkRoot, mkCorpus, Cmd(..), mkList, mkGraph, mkDashboard) import Gargantext.Database.Node.Document.Add (add) import Gargantext.Database.Node.Document.Insert (insertDocuments, ReturnId(..), addUniqIds) import Gargantext.Database.NodeNgram (NodeNgramPoly(..), insertNodeNgrams) import Gargantext.Database.NodeNgramsNgrams (NodeNgramsNgramsPoly(..), insertNodeNgramsNgramsNew) import Gargantext.Database.Types.Node (HyperdataDocument(..)) import Gargantext.Database.User (getUser, UserLight(..), Username) import Gargantext.Database.Config (userMaster, userArbitrary, corpusMasterName) import Gargantext.Prelude import Gargantext.Text.Parsers (parseDocs, FileFormat) import Gargantext.Ext.IMT (toSchoolName) type UserId = Int type RootId = Int type CorpusId = Int flowDatabase :: FileFormat -> FilePath -> CorpusName -> IO Int flowDatabase ff fp cName = do -- Corus Flow (masterUserId, _, corpusId) <- subFlow userMaster corpusMasterName -- Documents Flow hyperdataDocuments <- map addUniqIds <$> parseDocs ff fp --printDebug "hyperdataDocuments" hyperdataDocuments ids <- runCmd' $ insertDocuments masterUserId corpusId hyperdataDocuments --printDebug "Docs IDs : " (ids) idsRepeat <- runCmd' $ insertDocuments masterUserId corpusId hyperdataDocuments printDebug "Repeated Docs IDs : " (length idsRepeat) -- Ngrams Flow -- todo: flow for new documents only -- let tids = toInserted ids --printDebug "toInserted ids" (length tids, tids) -- let tihs = toInsert hyperdataDocuments --printDebug "toInsert hyperdataDocuments" (length tihs, tihs) let documentsWithId = mergeData (toInserted ids) (toInsert hyperdataDocuments) -- printDebug "documentsWithId" documentsWithId -- docsWithNgrams <- documentIdWithNgrams documentsWithId extractNgramsT let docsWithNgrams = documentIdWithNgrams extractNgramsT documentsWithId printDebug "docsWithNgrams" docsWithNgrams let maps = mapNodeIdNgrams docsWithNgrams printDebug "maps" (maps) indexedNgrams <- runCmd' $ indexNgrams maps printDebug "inserted ngrams" indexedNgrams _ <- runCmd' $ insertToNodeNgrams indexedNgrams -- List Flow listId2 <- runCmd' $ listFlow masterUserId corpusId indexedNgrams printDebug "list id : " listId2 (userId, _, corpusId2) <- subFlow userArbitrary cName userListId <- runCmd' $ listFlowUser userId corpusId2 printDebug "UserList : " userListId inserted <- runCmd' $ add corpusId2 (map reId ids) printDebug "Inserted : " (length inserted) _ <- runCmd' $ mkDashboard corpusId2 userId _ <- runCmd' $ mkGraph corpusId2 userId pure corpusId2 -- runCmd' $ del [corpusId2, corpusId] type CorpusName = Text subFlow :: Username -> CorpusName -> IO (UserId, RootId, CorpusId) subFlow username cName = do maybeUserId <- runCmd' (getUser username) let userId = case maybeUserId of Nothing -> panic "Error: User does not exist (yet)" -- mk NodeUser gargantua_id "Node Gargantua" Just user -> userLight_id user rootId' <- map _node_id <$> runCmd' (getRoot userId) rootId'' <- case rootId' of [] -> runCmd' (mkRoot username userId) n -> case length n >= 2 of True -> panic "Error: more than 1 userNode / user" False -> pure rootId' let rootId = maybe (panic "error rootId") identity (head rootId'') corpusId' <- runCmd' $ mkCorpus (Just cName) Nothing rootId userId let corpusId = maybe (panic "error corpusId") identity (head corpusId') printDebug "(username, userId, rootId, corpusId)" (username, userId, rootId, corpusId) pure (userId, rootId, corpusId) ------------------------------------------------------------------------ type HashId = Text type NodeId = Int type ListId = Int toInsert :: [HyperdataDocument] -> Map HashId HyperdataDocument toInsert = DM.fromList . map (\d -> (hash (_hyperdataDocument_uniqId d), d)) where hash = maybe "Error" identity toInserted :: [ReturnId] -> Map HashId ReturnId toInserted rs = DM.fromList $ map (\r -> (reUniqId r, r) ) $ filter (\r -> reInserted r == True) rs data DocumentWithId = DocumentWithId { documentId :: NodeId , documentData :: HyperdataDocument } deriving (Show) mergeData :: Map HashId ReturnId -> Map HashId HyperdataDocument -> [DocumentWithId] mergeData rs = catMaybes . map toDocumentWithId . DM.toList where toDocumentWithId (hash,hpd) = DocumentWithId <$> fmap reId (lookup hash rs) <*> Just hpd ------------------------------------------------------------------------ data DocumentIdWithNgrams = DocumentIdWithNgrams { documentWithId :: DocumentWithId , document_ngrams :: Map (NgramsT Ngrams) Int } deriving (Show) -- TODO add Terms (Title + Abstract) -- add f :: Text -> Text -- newtype Ngrams = Ngrams Text extractNgramsT :: HyperdataDocument -> Map (NgramsT Ngrams) Int extractNgramsT doc = DM.fromList $ [(NgramsT Sources source, 1)] <> [(NgramsT Institutes i' , 1)| i' <- institutes ] <> [(NgramsT Authors a' , 1)| a' <- authors ] where source = text2ngrams $ maybe "Nothing" identity $ _hyperdataDocument_source doc institutes = map text2ngrams $ maybe ["Nothing"] (map toSchoolName . (splitOn ", ")) $ _hyperdataDocument_institutes doc authors = map text2ngrams $ maybe ["Nothing"] (splitOn ", ") $ _hyperdataDocument_authors doc -- TODO group terms documentIdWithNgrams :: (HyperdataDocument -> Map (NgramsT Ngrams) Int) -> [DocumentWithId] -> [DocumentIdWithNgrams] documentIdWithNgrams f = map (\d -> DocumentIdWithNgrams d ((f . documentData) d)) -- | TODO check optimization mapNodeIdNgrams :: [DocumentIdWithNgrams] -> Map (NgramsT Ngrams) (Map NodeId Int) mapNodeIdNgrams ds = DM.map (DM.fromListWith (+)) $ DM.fromListWith (<>) xs where xs = [(ng, [(nId, i)]) | (nId, n2i') <- n2i ds, (ng, i) <- DM.toList n2i'] n2i = map (\d -> ((documentId . documentWithId) d, document_ngrams d)) indexNgrams :: Map (NgramsT Ngrams ) (Map NodeId Int) -> Cmd (Map (NgramsT NgramsIndexed) (Map NodeId Int)) indexNgrams ng2nId = do terms2id <- insertNgrams (map _ngramsT $ DM.keys ng2nId) pure $ DM.mapKeys (indexNgramsT terms2id) ng2nId insertToNodeNgrams :: Map (NgramsT NgramsIndexed) (Map NodeId Int) -> Cmd Int insertToNodeNgrams m = insertNodeNgrams [ NodeNgram Nothing nId ((_ngramsId . _ngramsT ) ng) (fromIntegral n) ((ngramsTypeId . _ngramsType) ng) | (ng, nId2int) <- DM.toList m , (nId, n) <- DM.toList nId2int ] ------------------------------------------------------------------------ ------------------------------------------------------------------------ listFlow :: UserId -> CorpusId -> Map (NgramsT NgramsIndexed) (Map NodeId Int) -> Cmd ListId listFlow uId cId ngs = do printDebug "ngs:" ngs lId <- maybe (panic "mkList error") identity <$> head <$> mkList cId uId printDebug "ngs" (DM.keys ngs) -- TODO add stemming equivalence of 2 ngrams let groupEd = groupNgramsBy (\(NgramsT t1 n1) (NgramsT t2 n2) -> if (((==) t1 t2) && ((==) n1 n2)) then (Just (n1,n2)) else Nothing) ngs _ <- insertGroups lId groupEd -- compute Candidate / Map let lists = ngrams2list ngs printDebug "lists:" lists is <- insertLists lId lists printDebug "listNgrams inserted :" is pure lId listFlowUser :: UserId -> CorpusId -> Cmd [Int] listFlowUser uId cId = mkList cId uId ------------------------------------------------------------------------ groupNgramsBy :: (NgramsT NgramsIndexed -> NgramsT NgramsIndexed -> Maybe (NgramsIndexed, NgramsIndexed)) -> Map (NgramsT NgramsIndexed) (Map NodeId Int) -> Map NgramsIndexed NgramsIndexed groupNgramsBy isEqual cId = DM.fromList $ catMaybes [ isEqual n1 n2 | n1 <- DM.keys cId, n2 <- DM.keys cId] -- TODO check: do not insert duplicates insertGroups :: ListId -> Map NgramsIndexed NgramsIndexed -> Cmd Int insertGroups lId ngrs = insertNodeNgramsNgramsNew [ NodeNgramsNgrams lId ng1 ng2 (Just 1) | (ng1, ng2) <- map (both _ngramsId) $ DM.toList ngrs , ng1 /= ng2 ] ------------------------------------------------------------------------ -- TODO: verify NgramsT lost here ngrams2list :: Map (NgramsT NgramsIndexed) (Map NodeId Int) -> [(ListType,NgramsIndexed)] ngrams2list = zip (repeat CandidateList) . map (\(NgramsT _lost_t ng) -> ng) . DM.keys -- | TODO: weight of the list could be a probability insertLists :: ListId -> [(ListType,NgramsIndexed)] -> Cmd Int insertLists lId lngs = insertNodeNgrams [ NodeNgram Nothing lId ngr (fromIntegral $ listTypeId l) (listTypeId l) | (l,ngr) <- map (second _ngramsId) lngs ] ------------------------------------------------------------------------ ------------------------------------------------------------------------