{-|
Module : Gargantext.Database.Flow
Description : Database Flow
Copyright : (c) CNRS, 2017-Present
License : AGPL + CECILL v3
Maintainer : team@gargantext.org
Stability : experimental
Portability : POSIX
-- TODO-ACCESS:
-- check userId CanFillUserCorpus userCorpusId
-- check masterUserId CanFillMasterCorpus masterCorpusId
-- TODO-ACCESS: check uId CanInsertDoc pId && checkDocType nodeType
-- TODO-EVENTS: InsertedNodes
-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ConstrainedClassMethods #-}
{-# LANGUAGE ConstraintKinds #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE OverloadedStrings #-}
module Gargantext.Database.Flow -- (flowDatabase, ngrams2list)
( FlowCmdM
, flowCorpusFile
, flowCorpus
, flowCorpusSearchInDatabase
, getOrMkRoot
, getOrMkRootWithCorpus
)
where
import Prelude (String)
import Data.Either
import Debug.Trace (trace)
import Control.Lens ((^.), view, _Just)
import Control.Monad (mapM_)
import Control.Monad.IO.Class (liftIO)
import Data.List (concat)
import Data.Map (Map, lookup, toList)
import Data.Maybe (Maybe(..), catMaybes)
import Data.Monoid
import Data.Text (Text, splitOn, intercalate)
import GHC.Show (Show)
import Gargantext.API.Ngrams (HasRepoVar)
import Gargantext.API.Ngrams (NgramsElement, putListNgrams, RepoCmdM)
import Gargantext.Core (Lang(..))
import Gargantext.Core.Types (NodePoly(..), Terms(..))
import Gargantext.Core.Types.Individu (Username)
import Gargantext.Core.Flow
import Gargantext.Core.Types.Main
import Gargantext.Database.Config (userMaster, corpusMasterName)
import Gargantext.Database.Flow.Utils (insertDocNgrams)
import Gargantext.Database.Node.Contact -- (HyperdataContact(..), ContactWho(..))
import Gargantext.Database.Node.Document.Insert -- (insertDocuments, ReturnId(..), addUniqIdsDoc, addUniqIdsContact, ToDbData(..))
import Gargantext.Database.Root (getRoot)
import Gargantext.Database.Schema.Ngrams -- (insertNgrams, Ngrams(..), NgramsIndexed(..), indexNgrams, NgramsType(..), text2ngrams, ngramsTypeId)
import Gargantext.Database.Schema.Node -- (mkRoot, mkCorpus, getOrMkList, mkGraph, {-mkPhylo,-} mkDashboard, mkAnnuaire, getCorporaWithParentId, HasNodeError, NodeError(..), nodeError)
import Gargantext.Database.Schema.User (getUser, UserLight(..))
import Gargantext.Database.TextSearch (searchInDatabase)
import Gargantext.Database.Types.Node -- (HyperdataDocument(..), NodeType(..), NodeId, UserId, ListId, CorpusId, RootId, MasterCorpusId, MasterUserId)
import Gargantext.Database.Utils (Cmd, CmdM)
import Gargantext.Ext.IMT (toSchoolName)
import Gargantext.Ext.IMTUser (deserialiseImtUsersFromFile)
import Gargantext.Prelude
import Gargantext.Text.Terms.Eleve (buildTries, toToken)
import Gargantext.Text.List (buildNgramsLists,StopSize(..))
import Gargantext.Text.Corpus.Parsers (parseFile, FileFormat)
import qualified Gargantext.Text.Corpus.API.Isidore as Isidore
import Gargantext.Text.Terms (TermType(..), tt_lang, extractTerms, uniText)
import Gargantext.Text.Terms.Mono.Stem.En (stemIt)
import Gargantext.Prelude.Utils hiding (hash)
import System.FilePath (FilePath)
import qualified Data.List as List
import qualified Data.Map as Map
import qualified Data.Text as Text
import qualified Gargantext.Database.Node.Document.Add as Doc (add)
import qualified Gargantext.Text.Corpus.Parsers.GrandDebat as GD
type FlowCmdM env err m =
( CmdM env err m
, RepoCmdM env err m
, HasNodeError err
, HasRepoVar env
)
------------------------------------------------------------------------
data ApiQuery = ApiIsidoreQuery Text | ApiIsidoreAuth Text
-- | APIs
-- TODO instances
getDataApi :: Lang
-> Maybe Limit
-> ApiQuery
-> IO [HyperdataDocument]
getDataApi lang limit (ApiIsidoreQuery q) = Isidore.get lang limit (Just q) Nothing
getDataApi lang limit (ApiIsidoreAuth q) = Isidore.get lang limit Nothing (Just q)
-- UNUSED
_flowCorpusApi :: ( FlowCmdM env err m)
=> Username -> Either CorpusName [CorpusId]
-> TermType Lang
-> Maybe Limit
-> ApiQuery
-> m CorpusId
_flowCorpusApi u n tt l q = do
docs <- liftIO $ splitEvery 500 <$> getDataApi (_tt_lang tt) l q
flowCorpus u n tt docs
------------------------------------------------------------------------
-- UNUSED
_flowAnnuaire :: FlowCmdM env err m
=> Username -> Either CorpusName [CorpusId] -> (TermType Lang) -> FilePath -> m AnnuaireId
_flowAnnuaire u n l filePath = do
docs <- liftIO $ (( splitEvery 500 <$> deserialiseImtUsersFromFile filePath) :: IO [[HyperdataContact]])
flow (Nothing :: Maybe HyperdataAnnuaire) u n l docs
-- UNUSED
_flowCorpusDebat :: FlowCmdM env err m
=> Username -> Either CorpusName [CorpusId]
-> Limit -> FilePath
-> m CorpusId
_flowCorpusDebat u n l fp = do
docs <- liftIO ( splitEvery 500
<$> take l
<$> readFile' fp
:: IO [[GD.GrandDebatReference ]]
)
flowCorpus u n (Multi FR) (map (map toHyperdataDocument) docs)
flowCorpusFile :: FlowCmdM env err m
=> Username -> Either CorpusName [CorpusId]
-> Limit -- Limit the number of docs (for dev purpose)
-> TermType Lang -> FileFormat -> FilePath
-> m CorpusId
flowCorpusFile u n l la ff fp = do
docs <- liftIO ( splitEvery 500
<$> take l
<$> parseFile ff fp
)
flowCorpus u n la (map (map toHyperdataDocument) docs)
-- TODO query with complex query
flowCorpusSearchInDatabase :: FlowCmdM env err m
=> Username -> Lang -> Text -> m CorpusId
flowCorpusSearchInDatabase u la q = do
(_masterUserId, _masterRootId, cId) <- getOrMkRootWithCorpus userMaster (Left "") (Nothing :: Maybe HyperdataCorpus)
ids <- map fst <$> searchInDatabase cId (stemIt q)
flowCorpusUser la u (Left q) (Nothing :: Maybe HyperdataCorpus) ids
-- UNUSED
_flowCorpusSearchInDatabaseApi :: FlowCmdM env err m
=> Username -> Lang -> Text -> m CorpusId
_flowCorpusSearchInDatabaseApi u la q = do
(_masterUserId, _masterRootId, cId) <- getOrMkRootWithCorpus userMaster (Left "") (Nothing :: Maybe HyperdataCorpus)
ids <- map fst <$> searchInDatabase cId (stemIt q)
flowCorpusUser la u (Left q) (Nothing :: Maybe HyperdataCorpus) ids
------------------------------------------------------------------------
-- | TODO improve the needed type to create/update a corpus
{- UNUSED
data UserInfo = Username Text
| UserId NodeId
data CorpusInfo = CorpusName Lang Text
| CorpusId Lang NodeId
-}
flow :: (FlowCmdM env err m, FlowCorpus a, MkCorpus c)
=> Maybe c -> Username -> Either CorpusName [CorpusId] -> TermType Lang -> [[a]] -> m CorpusId
flow c u cn la docs = do
ids <- mapM (insertMasterDocs c la ) docs
flowCorpusUser (la ^. tt_lang) u cn c (concat ids)
flowCorpus :: (FlowCmdM env err m, FlowCorpus a)
=> Username -> Either CorpusName [CorpusId] -> TermType Lang -> [[a]] -> m CorpusId
flowCorpus = flow (Nothing :: Maybe HyperdataCorpus)
------------------------------------------------------------------------
flowCorpusUser :: (FlowCmdM env err m, MkCorpus c)
=> Lang -> Username -> Either CorpusName [CorpusId] -> Maybe c -> [NodeId] -> m CorpusId
flowCorpusUser l userName corpusName ctype ids = do
-- User Flow
(userId, _rootId, userCorpusId) <- getOrMkRootWithCorpus userName corpusName ctype
-- TODO: check if present already, ignore
_ <- Doc.add userCorpusId ids
tId <- mkNode NodeTexts userCorpusId userId
printDebug "Node Text Id" tId
-- User List Flow
--{-
(_masterUserId, _masterRootId, masterCorpusId) <- getOrMkRootWithCorpus userMaster (Left "") ctype
ngs <- buildNgramsLists l 2 3 (StopSize 3) userCorpusId masterCorpusId
userListId <- flowList userId userCorpusId ngs
printDebug "userListId" userListId
-- User Graph Flow
_ <- mkDashboard userCorpusId userId
_ <- mkGraph userCorpusId userId
--_ <- mkPhylo userCorpusId userId
--}
-- Annuaire Flow
-- _ <- mkAnnuaire rootUserId userId
pure userCorpusId
insertMasterDocs :: ( FlowCmdM env err m
, FlowCorpus a
, MkCorpus c
)
=> Maybe c -> TermType Lang -> [a] -> m [DocId]
insertMasterDocs c lang hs = do
(masterUserId, _, masterCorpusId) <- getOrMkRootWithCorpus userMaster (Left corpusMasterName) c
-- TODO Type NodeDocumentUnicised
let hs' = map addUniqId hs
ids <- insertDb masterUserId masterCorpusId hs'
let documentsWithId = mergeData (toInserted ids) (Map.fromList $ map viewUniqId' hs')
let
fixLang (Unsupervised l n s m) = Unsupervised l n s m'
where
m' = case m of
Nothing -> trace ("buildTries here" :: String)
$ Just
$ buildTries n ( fmap toToken $ uniText
$ Text.intercalate " . "
$ List.concat
$ map hasText documentsWithId
)
just_m -> just_m
fixLang l = l
lang' = fixLang lang
-- maps :: IO Map Ngrams (Map NgramsType (Map NodeId Int))
maps <- mapNodeIdNgrams <$> documentIdWithNgrams (extractNgramsT lang') documentsWithId
terms2id <- insertNgrams $ Map.keys maps
let indexedNgrams = Map.mapKeys (indexNgrams terms2id) maps
lId <- getOrMkList masterCorpusId masterUserId
_ <- insertDocNgrams lId indexedNgrams
pure $ map reId ids
type CorpusName = Text
getOrMkRoot :: (HasNodeError err) => Username -> Cmd err (UserId, RootId)
getOrMkRoot username = do
maybeUserId <- getUser username
userId <- case maybeUserId of
Nothing -> nodeError NoUserFound
Just user -> pure $ userLight_id user
rootId' <- map _node_id <$> getRoot username
rootId'' <- case rootId' of
[] -> mkRoot username userId
n -> case length n >= 2 of
True -> nodeError ManyNodeUsers
False -> pure rootId'
rootId <- maybe (nodeError NoRootFound) pure (head rootId'')
pure (userId, rootId)
getOrMkRootWithCorpus :: (HasNodeError err, MkCorpus a)
=> Username -> Either CorpusName [CorpusId] -> Maybe a
-> Cmd err (UserId, RootId, CorpusId)
getOrMkRootWithCorpus username cName c = do
(userId, rootId) <- getOrMkRoot username
corpusId'' <- if username == userMaster
then do
ns <- getCorporaWithParentId rootId
pure $ map _node_id ns
else
pure $ fromRight [] cName
corpusId' <- if corpusId'' /= []
then pure corpusId''
else mk (Just $ fromLeft "Default" cName) c rootId userId
corpusId <- maybe (nodeError NoCorpusFound) pure (head corpusId')
pure (userId, rootId, corpusId)
------------------------------------------------------------------------
viewUniqId' :: UniqId a => a -> (HashId, a)
viewUniqId' d = maybe err (\h -> (h,d)) (view uniqId d)
where
err = panic "[ERROR] Database.Flow.toInsert"
toInserted :: [ReturnId] -> Map HashId ReturnId
toInserted = Map.fromList . map (\r -> (reUniqId r, r) )
. filter (\r -> reInserted r == True)
data DocumentWithId a = DocumentWithId
{ documentId :: !NodeId
, documentData :: !a
} deriving (Show)
instance HasText a => HasText (DocumentWithId a)
where
hasText (DocumentWithId _ a) = hasText a
mergeData :: Map HashId ReturnId
-> Map HashId a
-> [DocumentWithId a]
mergeData rs = catMaybes . map toDocumentWithId . Map.toList
where
toDocumentWithId (hash,hpd) =
DocumentWithId <$> fmap reId (lookup hash rs)
<*> Just hpd
------------------------------------------------------------------------
data DocumentIdWithNgrams a = DocumentIdWithNgrams
{ documentWithId :: !(DocumentWithId a)
, document_ngrams :: !(Map Ngrams (Map NgramsType Int))
} deriving (Show)
instance HasText HyperdataContact
where
hasText = undefined
instance ExtractNgramsT HyperdataContact
where
extractNgramsT l hc = filterNgramsT 255 <$> extract l hc
where
extract :: TermType Lang -> HyperdataContact
-> Cmd err (Map Ngrams (Map NgramsType Int))
extract _l hc' = do
let authors = map text2ngrams
$ maybe ["Nothing"] (\a -> [a])
$ view (hc_who . _Just . cw_lastName) hc'
pure $ Map.fromList $ [(a', Map.singleton Authors 1) | a' <- authors ]
instance HasText HyperdataDocument
where
hasText h = catMaybes [ _hyperdataDocument_title h
, _hyperdataDocument_abstract h
]
instance ExtractNgramsT HyperdataDocument
where
extractNgramsT :: TermType Lang -> HyperdataDocument -> Cmd err (Map Ngrams (Map NgramsType Int))
extractNgramsT lang hd = filterNgramsT 255 <$> extractNgramsT' lang hd
where
extractNgramsT' :: TermType Lang -> HyperdataDocument
-> Cmd err (Map Ngrams (Map NgramsType Int))
extractNgramsT' lang' doc = do
let 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
terms' <- map text2ngrams
<$> map (intercalate " " . _terms_label)
<$> concat
<$> liftIO (extractTerms lang' $ hasText doc)
pure $ Map.fromList $ [(source, Map.singleton Sources 1)]
<> [(i', Map.singleton Institutes 1) | i' <- institutes ]
<> [(a', Map.singleton Authors 1) | a' <- authors ]
<> [(t', Map.singleton NgramsTerms 1) | t' <- terms' ]
filterNgramsT :: Int -> Map Ngrams (Map NgramsType Int)
-> Map Ngrams (Map NgramsType Int)
filterNgramsT s ms = Map.fromList $ map (\a -> filter' s a) $ Map.toList ms
where
filter' s' (ng@(Ngrams t n),y) = case (Text.length t) < s' of
True -> (ng,y)
False -> (Ngrams (Text.take s' t) n , y)
documentIdWithNgrams :: HasNodeError err
=> (a
-> Cmd err (Map Ngrams (Map NgramsType Int)))
-> [DocumentWithId a]
-> Cmd err [DocumentIdWithNgrams a]
documentIdWithNgrams f = mapM toDocumentIdWithNgrams
where
toDocumentIdWithNgrams d = do
e <- f $ documentData d
pure $ DocumentIdWithNgrams d e
-- FLOW LIST
-- | TODO check optimization
mapNodeIdNgrams :: [DocumentIdWithNgrams a]
-> Map Ngrams (Map NgramsType (Map NodeId Int))
mapNodeIdNgrams = Map.unionsWith (Map.unionWith (Map.unionWith (+))) . fmap f
where
f :: DocumentIdWithNgrams a
-> Map Ngrams (Map NgramsType (Map NodeId Int))
f d = fmap (fmap (Map.singleton nId)) $ document_ngrams d
where
nId = documentId $ documentWithId d
------------------------------------------------------------------------
listInsert :: FlowCmdM env err m
=> ListId -> Map NgramsType [NgramsElement]
-> m ()
listInsert lId ngs = mapM_ (\(typeList, ngElmts)
-> putListNgrams lId typeList ngElmts
) $ toList ngs
flowList :: FlowCmdM env err m => UserId -> CorpusId
-> Map NgramsType [NgramsElement]
-> m ListId
flowList uId cId ngs = do
lId <- getOrMkList cId uId
printDebug "listId flowList" lId
listInsert lId ngs
--trace (show $ List.filter (\n -> _ne_ngrams n == "versatile") $ List.concat $ Map.elems ngs) $ listInsert lId ngs
pure lId