{-| Module : Gargantext.Database.Flow.List Description : List Flow Copyright : (c) CNRS, 2017-Present License : AGPL + CECILL v3 Maintainer : team@gargantext.org Stability : experimental Portability : POSIX -} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE ConstrainedClassMethods #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE InstanceSigs #-} module Gargantext.Database.Action.Flow.List where import Control.Concurrent import Control.Lens ((^.), (+~), (%~), at, (.~), _Just) import Control.Monad.Reader import Data.Map (Map, toList) import Data.Text (Text) import Gargantext.API.Ngrams (saveNodeStory) import Gargantext.API.Ngrams.Tools (getNodeStoryVar) import Gargantext.API.Ngrams.Types import Gargantext.Core.Types (HasInvalidError(..), assertValid) import Gargantext.Core.Types.Main (ListType(CandidateTerm)) import Gargantext.Core.NodeStory import Gargantext.Database.Action.Flow.Types import Gargantext.Database.Admin.Types.Node import Gargantext.Database.Query.Table.NodeNgrams (NodeNgramsPoly(..), NodeNgramsW, listInsertDb,{- getCgramsId -}) -- import Gargantext.Database.Query.Table.Node_NodeNgramsNodeNgrams import Gargantext.Database.Schema.Ngrams (NgramsType(..)) import Gargantext.Prelude import qualified Data.List as List import qualified Data.Map as Map import qualified Data.Map.Strict.Patch as PM import qualified Gargantext.Database.Query.Table.Ngrams as TableNgrams -- FLOW LIST -- 1. select specific terms of the corpus when compared with others langs -- (for now, suppose english) -- 2. select specific terms of the corpus when compared with others corpora (same database) -- 3. select clusters of terms (generic and specific) {- data FlowList = FlowListLang | FlowListTficf | FlowListSpeGen flowList_Tficf :: UserCorpusId -> MasterCorpusId -> NgramsType -> (Text -> Text) -> Cmd err (Map Text (Double, Set Text)) flowList_Tficf u m nt f = do u' <- Map.filter (\s -> Set.size s > 1) <$> getNodesByNgramsUser u nt m' <- Map.filter (\s -> Set.size s > 1) <$> getNodesByNgramsMaster u m pure $ sortTficf Down $ toTficfData (countNodesByNgramsWith f u') (countNodesByNgramsWith f m') flowList_Tficf' :: UserCorpusId -> MasterCorpusId -> NgramsType -> Cmd err (Map Text (Double, Set Text)) flowList_Tficf' u m nt f = do u' <- Map.filter (\s -> Set.size s > 1) <$> getNodesByNgramsUser u nt m' <- Map.filter (\s -> Set.size s > 1) <$> getNodesByNgramsMaster u m pure $ sortTficf Down $ toTficfData (countNodesByNgramsWith f u') (countNodesByNgramsWith f m') -} ------------------------------------------------------------------------ flowList_DbRepo :: FlowCmdM env err m => ListId -> Map NgramsType [NgramsElement] -> m ListId flowList_DbRepo lId ngs = do -- printDebug "listId flowList" lId _mapCgramsId <- listInsertDb lId toNodeNgramsW (Map.toList ngs) {- let toInsert = catMaybes [ (,) <$> (getCgramsId mapCgramsId ntype <$> (unNgramsTerm <$> parent)) <*> getCgramsId mapCgramsId ntype ngram | (ntype, ngs') <- Map.toList ngs , NgramsElement { _ne_ngrams = NgramsTerm ngram , _ne_parent = parent } <- ngs' ] -} -- Inserting groups of ngrams -- _r <- insert_Node_NodeNgrams_NodeNgrams -- $ map (\(a,b) -> Node_NodeNgrams_NodeNgrams lId a b Nothing) toInsert -- printDebug "flowList_Tficf':ngs" ngs listInsert lId ngs --trace (show $ List.filter (\n -> _ne_ngrams n == "versatile") $ List.concat $ Map.elems ngs) $ listInsert lId ngs pure lId ------------------------------------------------------------------------ ------------------------------------------------------------------------ toNodeNgramsW :: ListId -> [(NgramsType, [NgramsElement])] -> [NodeNgramsW] toNodeNgramsW l ngs = List.concat $ map (toNodeNgramsW'' l) ngs where toNodeNgramsW'' :: ListId -> (NgramsType, [NgramsElement]) -> [NodeNgramsW] toNodeNgramsW'' l' (ngrams_type, elms) = [ NodeNgrams { _nng_id = Nothing , _nng_node_id = l' , _nng_node_subtype = list_type , _nng_ngrams_id = ngrams_terms' , _nng_ngrams_type = ngrams_type , _nng_ngrams_field = Nothing , _nng_ngrams_tag = Nothing , _nng_ngrams_class = Nothing , _nng_ngrams_weight = 0 } | (NgramsElement { _ne_ngrams = NgramsTerm ngrams_terms' , _ne_size = _size , _ne_list = list_type , _ne_occurrences = _occ , _ne_root = _root , _ne_parent = _parent , _ne_children = _children } ) <- elms ] toNodeNgramsW' :: ListId -> [(Text, [NgramsType])] -> [NodeNgramsW] toNodeNgramsW' l'' ngs = [ NodeNgrams { _nng_id = Nothing , _nng_node_id = l'' , _nng_node_subtype = CandidateTerm , _nng_ngrams_id = terms , _nng_ngrams_type = ngrams_type , _nng_ngrams_field = Nothing , _nng_ngrams_tag = Nothing , _nng_ngrams_class = Nothing , _nng_ngrams_weight = 0 } | (terms, ngrams_types) <- ngs , ngrams_type <- ngrams_types ] listInsert :: FlowCmdM env err m => ListId -> Map NgramsType [NgramsElement] -> m () listInsert lId ngs = mapM_ (\(typeList, ngElmts) -> putListNgrams lId typeList ngElmts) (toList ngs) ------------------------------------------------------------------------ ------------------------------------------------------------------------ -- NOTE -- This is no longer part of the API. -- This function is maintained for its usage in Database.Action.Flow.List. -- If the given list of ngrams elements contains ngrams already in -- the repo, they will be ignored. putListNgrams :: (HasInvalidError err, HasNodeStory env err m) => NodeId -> TableNgrams.NgramsType -> [NgramsElement] -> m () putListNgrams _ _ [] = pure () putListNgrams nodeId ngramsType nes = putListNgrams' nodeId ngramsType m where m = Map.fromList $ map (\n -> (n ^. ne_ngrams, ngramsElementToRepo n)) nes putListNgrams' :: (HasInvalidError err, HasNodeStory env err m) => NodeId -> TableNgrams.NgramsType -> Map NgramsTerm NgramsRepoElement -> m () putListNgrams' listId ngramsType' ns = do -- printDebug "[putListNgrams'] nodeId" nodeId -- printDebug "[putListNgrams'] ngramsType" ngramsType -- printDebug "[putListNgrams'] ns" ns let p1 = NgramsTablePatch . PM.fromMap $ NgramsReplace Nothing . Just <$> ns (p, p_validity) = PM.singleton ngramsType' p1 assertValid p_validity {- -- TODO v <- currentVersion q <- commitStatePatch (Versioned v p) assert empty q -- What if another commit comes in between? -- Shall we have a blindCommitStatePatch? It would not ask for a version but just a patch. -- The modifyMVar_ would test the patch with applicable first. -- If valid the rest would be atomic and no merge is required. -} var <- getNodeStoryVar [listId] liftBase $ modifyMVar_ var $ \r -> do pure $ r & unNodeStory . at listId . _Just . a_version +~ 1 & unNodeStory . at listId . _Just . a_history %~ (p :) & unNodeStory . at listId . _Just . a_state . at ngramsType' .~ Just ns saveNodeStory