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[SocialList] ListType for groups, tested for stop, ok
[gargantext.git] / src / Gargantext / Core / Text / List / Social.hs
1 {-|
2 Module : Gargantext.Core.Text.List.Social
3 Description :
4 Copyright : (c) CNRS, 2018-Present
5 License : AGPL + CECILL v3
6 Maintainer : team@gargantext.org
7 Stability : experimental
8 Portability : POSIX
9 -}
10
11 module Gargantext.Core.Text.List.Social
12 where
13
14 -- findList imports
15 import Gargantext.Core.Types.Individu
16 import Gargantext.Database.Admin.Config
17 import Gargantext.Database.Admin.Types.Node
18 import Gargantext.Database.Prelude
19 import Gargantext.Database.Query.Table.Node.Error
20 import Gargantext.Database.Query.Tree
21 import Gargantext.Database.Query.Tree.Root (getRootId)
22 import Gargantext.Prelude
23
24 -- filterList imports
25 import Data.Maybe (fromMaybe)
26 import Data.Map (Map)
27 import Data.Set (Set)
28 import Data.Semigroup (Semigroup(..))
29 import Data.Text (Text)
30 import Gargantext.API.Ngrams.Tools -- (getListNgrams)
31 import Gargantext.API.Ngrams.Types
32 import Gargantext.Core.Types.Main
33 import Gargantext.Database.Schema.Ngrams
34 import qualified Data.List as List
35 import qualified Data.Map as Map
36 import qualified Data.Set as Set
37
38 flowSocialList :: ( RepoCmdM env err m
39 , CmdM env err m
40 , HasNodeError err
41 , HasTreeError err
42 )
43 => User -> NgramsType -> Set Text
44 -> m (Map ListType (Set Text))
45 flowSocialList user nt ngrams' = do
46 privateLists <- flowSocialListByMode Private user nt ngrams'
47 -- printDebug "* privateLists *: \n" privateLists
48 -- here preference to privateLists (discutable)
49 sharedLists <- flowSocialListByMode Shared user nt (termsByList CandidateTerm privateLists)
50 -- printDebug "* sharedLists *: \n" sharedLists
51 -- TODO publicMapList
52
53 let result = unions [ Map.mapKeys (fromMaybe CandidateTerm) privateLists
54 , Map.mapKeys (fromMaybe CandidateTerm) sharedLists
55 ]
56 printDebug "* socialLists *: results \n" result
57 pure result
58
59
60 ------------------------------------------------------------------------
61 unions :: (Ord a, Semigroup a, Semigroup b, Ord b)
62 => [Map a (Set b)] -> Map a (Set b)
63 unions = invertBack . Map.unionsWith (<>) . map invertForw
64
65 invertForw :: (Ord b, Semigroup a) => Map a (Set b) -> Map b a
66 invertForw = Map.unionsWith (<>)
67 . (map (\(k,sets) -> Map.fromSet (\_ -> k) sets))
68 . Map.toList
69
70 invertBack :: (Ord a, Ord b) => Map b a -> Map a (Set b)
71 invertBack = Map.fromListWith (<>)
72 . (map (\(b,a) -> (a, Set.singleton b)))
73 . Map.toList
74
75 unions_test :: Map ListType (Set Text)
76 unions_test = unions [m1, m2]
77 where
78 m1 = Map.fromList [ (StopTerm, Set.singleton "Candidate")]
79 m2 = Map.fromList [ (CandidateTerm, Set.singleton "Candidate")
80 , (MapTerm, Set.singleton "Candidate")
81 ]
82
83 ------------------------------------------------------------------------
84
85 termsByList :: ListType -> (Map (Maybe ListType) (Set Text)) -> Set Text
86 termsByList CandidateTerm m = Set.unions
87 $ map (\lt -> fromMaybe Set.empty $ Map.lookup lt m)
88 [ Nothing, Just CandidateTerm ]
89 termsByList l m =
90 fromMaybe Set.empty $ Map.lookup (Just l) m
91
92
93 flowSocialListByMode :: ( RepoCmdM env err m
94 , CmdM env err m
95 , HasNodeError err
96 , HasTreeError err
97 )
98 => NodeMode -> User -> NgramsType -> Set Text
99 -> m (Map (Maybe ListType) (Set Text))
100 flowSocialListByMode mode user nt ngrams' = do
101 listIds <- findListsId mode user
102 case listIds of
103 [] -> pure $ Map.fromList [(Nothing, ngrams')]
104 _ -> do
105 counts <- countFilterList ngrams' nt listIds Map.empty
106 -- printDebug "flowSocialListByMode counts" counts
107 let r = toSocialList counts ngrams'
108 -- printDebug "flowSocialListByMode r" r
109 pure r
110
111 ---------------------------------------------------------------------------
112 -- TODO: maybe use social groups too
113 toSocialList :: Map Text (Map ListType Int)
114 -> Set Text
115 -> Map (Maybe ListType) (Set Text)
116 toSocialList m = Map.fromListWith (<>)
117 . Set.toList
118 . Set.map (toSocialList1 m)
119
120 -- | TODO what if equality ?
121 -- choice depends on Ord instance of ListType
122 -- for now : data ListType = StopTerm | CandidateTerm | MapTerm
123 -- means MapTerm > CandidateTerm > StopTerm in case of equality of counts
124 -- (we minimize errors on MapTerms if doubt)
125 toSocialList1 :: Map Text (Map ListType Int)
126 -> Text
127 -> (Maybe ListType, Set Text)
128 toSocialList1 m t = case Map.lookup t m of
129 Nothing -> (Nothing, Set.singleton t)
130 Just m' -> ( (fst . fst) <$> Map.maxViewWithKey m'
131 , Set.singleton t
132 )
133
134 toSocialList1_testIsTrue :: Bool
135 toSocialList1_testIsTrue = result == (Just MapTerm, Set.singleton token)
136 where
137 result = toSocialList1 (Map.fromList [(token, m)]) token
138 token = "token"
139 m = Map.fromList [ (CandidateTerm, 1)
140 , (MapTerm , 2)
141 , (StopTerm , 3)
142 ]
143
144 ---------------------------------------------------------------------------
145 -- | [ListId] does not merge the lists (it is for Master and User lists
146 -- here we need UserList only
147 countFilterList :: RepoCmdM env err m
148 => Set Text -> NgramsType -> [ListId]
149 -> Map Text (Map ListType Int)
150 -> m (Map Text (Map ListType Int))
151 countFilterList st nt ls input =
152 foldM' (\m l -> countFilterList' st nt [l] m) input ls
153
154
155 countFilterList' :: RepoCmdM env err m
156 => Set Text -> NgramsType -> [ListId]
157 -> Map Text (Map ListType Int)
158 -> m (Map Text (Map ListType Int))
159 countFilterList' st nt ls input = do
160 ml <- toMapTextListType <$> getListNgrams ls nt
161 -- printDebug "countFilterList'" ml
162 pure $ Set.foldl' (\m t -> countList t ml m) input st
163
164 ---------------------------------------------------------------------------
165 -- FIXME children have to herit the ListType of the parent
166 toMapTextListType :: Map Text NgramsRepoElement -> Map Text ListType
167 toMapTextListType m = Map.fromListWith (<>)
168 $ List.concat
169 $ (map (toList m))
170 $ Map.toList m
171
172 toList :: Map Text NgramsRepoElement -> (Text, NgramsRepoElement) -> [(Text, ListType)]
173 toList m (t, nre@(NgramsRepoElement _ _ _ _ (MSet children))) =
174 List.zip terms (List.cycle [lt'])
175 where
176 terms = [t]
177 -- <> maybe [] (\n -> [unNgramsTerm n]) root
178 -- <> maybe [] (\n -> [unNgramsTerm n]) parent
179 <> (map unNgramsTerm $ Map.keys children)
180 lt' = listOf m nre
181
182 listOf :: Map Text NgramsRepoElement -> NgramsRepoElement -> ListType
183 listOf m ng = case _nre_parent ng of
184 Nothing -> _nre_list ng
185 Just p -> case Map.lookup (unNgramsTerm p) m of
186 Just ng' -> listOf m ng'
187 Nothing -> panic "CandidateTerm -- Should Not happen"
188
189 ---------------------------------------------------------------------------
190 countList :: Text
191 -> Map Text ListType
192 -> Map Text (Map ListType Int)
193 -> Map Text (Map ListType Int)
194 countList t m input = case Map.lookup t m of
195 Nothing -> input
196 Just l -> Map.alter addList t input
197 where
198 addList Nothing = Just $ addCount l Map.empty
199 addList (Just lm) = Just $ addCount l lm
200
201 addCount :: ListType -> Map ListType Int -> Map ListType Int
202 addCount l m = Map.alter (plus l) l m
203 where
204 plus CandidateTerm Nothing = Just 1
205 plus CandidateTerm (Just x) = Just $ x + 1
206
207 plus _ Nothing = Just 3
208 plus _ (Just x) = Just $ x + 3
209
210 ------------------------------------------------------------------------
211 findListsId :: (HasNodeError err, HasTreeError err)
212 => NodeMode -> User -> Cmd err [NodeId]
213 findListsId mode u = do
214 r <- getRootId u
215 ns <- map _dt_nodeId <$> filter (\n -> _dt_typeId n == nodeTypeId NodeList)
216 <$> findNodes' mode r
217 -- printDebug "findListsIds" ns
218 pure ns
219
220
221 findNodes' :: HasTreeError err
222 => NodeMode -> RootId
223 -> Cmd err [DbTreeNode]
224 findNodes' Private r = findNodes Private r $ [NodeFolderPrivate] <> commonNodes
225 findNodes' Shared r = findNodes Shared r $ [NodeFolderShared ] <> commonNodes
226 findNodes' Public r = findNodes Public r $ [NodeFolderPublic ] <> commonNodes
227
228 commonNodes:: [NodeType]
229 commonNodes = [NodeFolder, NodeCorpus, NodeList]
230
231
232