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1 {-|
2 Module : Gargantext.Database.Bashql
3 Description : BASHQL to deal with Gargantext Database.
4 Copyright : (c) CNRS, 2017-Present
5 License : AGPL + CECILL v3
6 Maintainer : team@gargantext.org
7 Stability : experimental
8 Portability : POSIX
9
10 * BASHQL is a Domain Specific Language to deal with the Database
11
12 * BASHQL = functional (Bash * SQL)
13
14 * Which language to chose when working with a database ? To make it
15 simple, instead of all common Object Relational Mapping (ORM) [1]
16 strategy used nowadays inspired more by object logic than functional
17 logic, the semantics of BASHQL with focus on the function first.
18
19 * BASHQL focus on the function, i.e. use bash language function name,
20 and make it with SQL behind the scene. Then BASHQL is inspired more
21 by Bash language [2] than SQL and then follows its main commands as
22 specification and documentation.
23
24 * Main arguments:
25 1. Theoritical: database and FileSystems are each thought as a single
26 category, assumption based on theoretical work on databases by David Spivak [0].
27 2. Practical argument: basic bash commands are a daily practice among
28 developper community.
29
30 * How to help ?
31 1. Choose a command you like in Bash
32 2. Implement it in Haskell-SQL according to Gargantext Shema (Tree like
33 filesystem)
34 3. Translate it in BASHQL (follow previous implementations)
35 4. Make a pull request (enjoy the community)
36
37 * Implementation strategy: Functional adapations are made to the
38 gargantext languages options and SQL optimization are done continuously
39 during the project. For the Haskellish part, you may be inspired by
40 Turtle implementation written by Gabriel Gonzales [3] which shows how to
41 write Haskell bash translations.
42
43 * Semantics
44 - FileSystem is now a NodeSystem where each File is a Node in a Directed Graph (DG).
45
46 * References
47
48 [0] MIT Press has published "Category theory for the sciences". The book
49 can also be purchased on Amazon. Here are reviews by the MAA, by the
50 AMS, and by SIAM.
51
52 [1] https://en.wikipedia.org/wiki/Object-relational_mapping
53
54 [2] https://en.wikipedia.org/wiki/Bash_(Unix_shell)
55
56 [3] https://github.com/Gabriel439/Haskell-Turtle-Library
57
58 -}
59
60 {-# LANGUAGE NoImplicitPrelude #-}
61 {-# LANGUAGE FlexibleContexts #-}
62
63 module Gargantext.Database.Bashql ( get
64 , ls
65 , home
66 , post
67 , del
68 , mv
69 , put
70 , rename
71 , tree
72 -- , mkCorpus, mkAnnuaire
73 , runCmd'
74 )
75 where
76
77 import Control.Monad.Reader -- (Reader, ask)
78
79 import Data.Text (Text)
80 import Data.Aeson
81 import Data.List (concat, last)
82
83 import Gargantext.Core.Types
84 import Gargantext.Database.Utils (connectGargandb)
85 import Gargantext.Database.Node
86 import qualified Gargantext.Database.Node.Update as U (Update(..), update)
87 import Gargantext.Prelude
88
89 import Opaleye hiding (FromField)
90
91
92 -- List of NodeId
93 -- type PWD a = PWD UserId [a]
94 type PWD = [NodeId]
95 --data PWD' a = a | PWD' [a]
96
97 rename :: NodeId -> Text -> Cmd [Int]
98 rename n t = mkCmd $ \conn -> U.update (U.Rename n t) conn
99
100 mv :: NodeId -> ParentId -> Cmd [Int]
101 mv n p = mkCmd $ \conn -> U.update (U.Move n p) conn
102
103 -- | TODO get Children or Node
104 get :: PWD -> Cmd [Node Value]
105 get [] = pure []
106 get pwd = Cmd . ReaderT $ \conn -> runQuery conn $ selectNodesWithParentID (last pwd)
107
108 -- | Home, need to filter with UserId
109 home :: Cmd PWD
110 home = map _node_id <$> Cmd (ReaderT (getNodesWithParentId 0 Nothing))
111
112 -- | ls == get Children
113 ls :: PWD -> Cmd [Node Value]
114 ls = get
115
116 tree :: PWD -> Cmd [Node Value]
117 tree p = do
118 ns <- get p
119 children <- mapM (\n -> get [_node_id n]) ns
120 pure $ ns <> concat children
121
122 -- | TODO
123 post :: PWD -> [NodeWrite'] -> Cmd Int64
124 post [] _ = pure 0
125 post _ [] = pure 0
126 post pth ns = Cmd . ReaderT $ insertNodesWithParent (Just $ last pth) ns
127
128 --postR :: PWD -> [NodeWrite'] -> Cmd [Int]
129 --postR [] _ _ = pure [0]
130 --postR _ [] _ = pure [0]
131 --postR pth ns c = mkNodeR (last pth) ns c
132
133 -- | WIP
134 -- rm : mv to trash
135 -- del : empty trash
136 --rm :: Connection -> PWD -> [NodeId] -> IO Int
137 --rm = del
138 del :: [NodeId] -> Cmd Int
139 del [] = pure 0
140 del ns = deleteNodes ns
141
142 -- | TODO
143 put :: U.Update -> Cmd [Int]
144 put u = mkCmd $ U.update u
145
146 -- | TODO
147 -- cd (Home UserId) | (Node NodeId)
148 -- cd Path
149 -- jump NodeId
150 -- touch Dir
151
152 -- type Name = Text
153
154
155 --mkCorpus :: ToJSON a => Name -> (a -> Text) -> [a] -> Cmd NewNode
156 --mkCorpus name title ns = do
157 -- pid <- home
158 --
159 -- let pid' = case lastMay pid of
160 -- Nothing -> printDebug "No home for" name
161 -- Just p -> p
162 --
163 -- let uid = 1
164 -- postNode uid (Just pid') ( Node' NodeCorpus name emptyObject
165 -- (map (\n -> Node' Document (title n) (toJSON n) []) ns)
166 -- )
167 --
168 ---- |
169 ---- import IMTClient as C
170 ---- postAnnuaire "Annuaire IMT" (\n -> (maybe "" identity (C.prenom n)) <> " " <> (maybe "" identity (C.nom n))) (take 30 annuaire)
171 --mkAnnuaire :: ToJSON a => Name -> (a -> Text) -> [a] -> Cmd NewNode
172 --mkAnnuaire name title ns = do
173 -- pid <- lastMay <$> home
174 -- let pid' = case lastMay pid of
175 -- Nothing -> printDebug "No home for" name
176 -- Just p -> p
177 -- let uid = 1
178 -- postNode uid (Just pid') ( Node' Annuaire name emptyObject
179 -- (map (\n -> Node' UserPage (title n) (toJSON n) []) ns)
180 -- )
181
182 --------------------------------------------------------------
183 -- |
184 -- myCorpus <- Prelude.map doc2hyperdataDocument <$> toDocs <$> snd <$> readCsv "doc/corpus_imt/Gargantext_Corpus_small.csv"
185 -- There is an error in the CSV parsing...
186 -- let myCorpus' = Prelude.filter (\n -> T.length (maybe "" identity (hyperdataDocument_title n)) > 30) myCorpus
187
188 -- corporaOf :: Username -> IO [Corpus]
189
190 runCmd' :: Cmd a -> IO a
191 runCmd' f = connectGargandb "gargantext.ini" >>= \c -> runCmd c f