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1 {-# LANGUAGE DeriveDataTypeable #-}
2 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
3 {-# LANGUAGE NamedFieldPuns #-}
4 {-# LANGUAGE RecordWildCards #-}
5 {-# LANGUAGE TypeFamilies #-}
6 {-# OPTIONS_GHC -fno-warn-orphans #-}
7 module Hcompta.LCC.Journal where
8
9 -- import Data.Data (Data(..))
10 -- import Data.NonNull (NonNull)
11 -- import Data.String (IsString(..))
12 -- import Data.Text (Text)
13 -- import qualified Data.NonNull as NonNull
14 -- import qualified Data.Text as Text
15 -- import qualified System.FilePath.Posix as FP
16
17 import Data.Semigroup (Semigroup(..))
18 import Control.DeepSeq (NFData(..))
19 import Data.Eq (Eq(..))
20 import Data.Foldable (Foldable(..))
21 import Data.Function (($), (.), flip)
22 import Data.Functor (Functor(..), (<$>))
23 import Data.Functor.Compose (Compose(..))
24 import Data.Map.Strict (Map)
25 import Data.Monoid (Monoid(..))
26 import Data.Ord (Ord(..))
27 import Data.Text (Text)
28 import Data.Traversable (Traversable(..))
29 import Data.TreeMap.Strict (TreeMap)
30 import Data.Typeable (Typeable)
31 import Prelude (seq)
32 import Text.Show (Show(..))
33 import qualified Data.MonoTraversable as MT
34 import qualified Data.Map.Strict as Map
35
36 import qualified Language.Symantic as Sym
37 import Language.Symantic.Grammar (At)
38
39 import qualified Hcompta as H
40 import Hcompta.LCC.Chart
41 import Hcompta.LCC.IO
42 import Hcompta.LCC.Posting
43
44
45 -- * Type 'Terms'
46 type Terms src = Map (Sym.Mod Sym.NameTe) (At src Text)
47 -- type Terms = [(Sym.Mod Sym.NameTe, Text)]
48
49 -- * Type 'Journal'
50 data Journal src j
51 = Journal
52 { journal_file :: !PathFile
53 , journal_last_read_time :: !Date
54 , journal_includes :: ![CanonFile]
55 , journal_terms :: !(Terms src)
56 , journal_chart :: !Chart
57 , journal_content :: !j
58 } deriving (Eq, Show, Typeable)
59
60 type instance MT.Element (Journal src j) = j
61 instance Functor (Journal src) where
62 fmap f j@Journal{journal_content} =
63 j{ journal_content = f journal_content }
64 instance MT.MonoFunctor (Journal src j)
65 instance Foldable (Journal src) where
66 foldMap f Journal{journal_content} = f journal_content
67 instance MT.MonoFoldable (Journal src j)
68 instance Traversable (Journal src) where
69 traverse f j = (\c -> j{journal_content=c}) <$> f (journal_content j)
70 instance Semigroup j => Semigroup (Journal src j) where
71 x <> y =
72 Journal
73 { journal_file = journal_file y
74 , journal_last_read_time = journal_last_read_time x `min` journal_last_read_time y
75 , journal_includes = journal_includes x <> journal_includes y
76 , journal_terms = journal_terms x <> journal_terms y
77 , journal_chart = journal_chart x <> journal_chart y
78 , journal_content = journal_content x <> journal_content y
79 }
80 instance (Semigroup j, Monoid j) => Monoid (Journal src j) where
81 mempty = journal mempty
82 mappend = (<>)
83 instance NFData j => NFData (Journal src j) where
84 rnf Journal{..} =
85 rnf journal_file `seq`
86 rnf journal_last_read_time `seq`
87 rnf journal_includes `seq`
88 -- TODO: rnf journal_terms `seq`
89 rnf journal_chart `seq`
90 rnf journal_content
91
92 journal :: j -> Journal src j
93 journal j =
94 Journal
95 { journal_file = ""
96 , journal_last_read_time = H.epoch
97 , journal_includes = []
98 , journal_chart = mempty
99 , journal_terms = mempty
100 , journal_content = j
101 }
102
103 {-
104 instance Semigroup j => Semigroup (Journal j) where
105 (<>) = journal_union
106 instance (Monoid j, Semigroup j) => Monoid (Journal src j) where
107 mempty = journal
108 mappend = journal_union
109
110 journal_union :: Semigroup j => Journal src j -> Journal src j -> Journal src j
111 journal_union x y =
112 Journal
113 { journal_last_read_time = journal_last_read_time x `min` journal_last_read_time y
114 , journal_content = journal_content x <> journal_content y
115 , journal_includes = journal_includes x <> journal_includes y
116 }
117
118 journal_unions :: (Foldable f, Monoid j, Semigroup j) => f (Journal j) -> Journal j
119 journal_unions = foldl' (flip (<>)) journal
120 -}
121
122 {-
123 -- | Return the given accumulator folded over
124 -- the given 'Journal' and its 'journal_includes' 'Journal's.
125 journal_fold :: (Journal src j -> a -> a) -> Journal src j -> a -> a
126 journal_fold f j@Journal{journal_includes} a =
127 foldl'
128 (flip $ journal_fold f) (f j a)
129 journal_includes
130
131 -- | Return the given accumulator folded over
132 -- the given 'Journal' and its 'journal_includes' 'Journal's.
133 journal_foldM :: Monad m => (Journal src j -> a -> m a) -> Journal src j -> a -> m a
134 journal_foldM f j@Journal{journal_includes} a = do
135 ma <- f j a
136 foldM
137 (flip $ journal_foldM f) ma
138 journal_includes
139
140 -- | Return the given accumulator folded with the given function
141 -- over the given 'Journal' and its 'journal_includes' 'Journal's.
142 journal_foldMap :: Monoid a => (Journal src j -> a -> a) -> Journal src j -> a -> a
143 journal_foldMap f j@(Journal{journal_includes}) =
144 f j `mappend` foldMap (journal_foldMap f) journal_includes
145
146 -- | Return the first non-'Nothing' value returned by the given function
147 -- when applied to the given 'Journal' or its 'journal_includes' 'Journal's,
148 -- with the parent 'Journal's.
149 journal_find :: (Journal src j -> Maybe a) -> Journal src j -> Maybe (a, [Journal src j])
150 journal_find f =
151 (\x -> case x of
152 Nothing -> Nothing
153 Just (a, path) -> Just (a, reverse path))
154 . find_ []
155 where
156 find_ path j =
157 case f j of
158 Just a -> Just (a, path)
159 Nothing ->
160 Monoid.getFirst $
161 foldMap (Monoid.First . (find_ (j:path))) $
162 journal_includes j
163
164 -- | Return the given 'Journal' and its 'journal_includes' 'Journal's
165 -- mapped by the given function.
166 journal_traverse :: (Journal src j -> Journal src j) -> Journal src j -> Journal src j
167 journal_traverse f =
168 (\x -> case x of
169 j@Journal{journal_includes} ->
170 j{journal_includes = journal_traverse f <$> journal_includes})
171 . f
172
173 -- | Return the 'Journal' recursively 'mappend'-ed
174 -- with its 'journal_includes', now empty.
175 journal_flatten :: (Monoid j, Semigroup j) => Journal src j -> Journal src j
176 journal_flatten jnl =
177 (mconcat $ (:) jnl $ journal_flatten <$>
178 journal_includes jnl) { journal_includes = [] }
179 -}
180
181 -- * Type 'Journals'
182 newtype Journals src j = Journals (Map CanonFile (Journal src j))
183 deriving (Eq, Show, Typeable)
184 type instance MT.Element (Journals src j) = Journal src j
185
186 instance MT.MonoFunctor (Journals src j) where
187 omap f (Journals m) = Journals $ f `MT.omap` m
188 instance MT.MonoFoldable (Journals src j) where
189 ofoldMap f (Journals m) = MT.ofoldMap f m
190 ofoldr f a (Journals m) = MT.ofoldr f a m
191 ofoldl' f a (Journals m) = MT.ofoldl' f a m
192 ofoldr1Ex f (Journals m) = MT.ofoldr1Ex f m
193 ofoldl1Ex' f (Journals m) = MT.ofoldl1Ex' f m
194 instance MT.MonoTraversable (Journals src j) where
195 otraverse f (Journals m) = Journals <$> MT.otraverse f m
196
197 instance Functor (Journals src) where
198 fmap f (Journals m) = Journals $ fmap f <$> m
199 instance Foldable (Journals src) where
200 foldMap f (Journals m) = f `foldMap` Compose m
201 instance Traversable (Journals src) where
202 traverse f (Journals m) =
203 Journals . getCompose <$> (f `traverse` Compose m)
204 instance Semigroup j => Semigroup (Journals src j) where
205 Journals x <> Journals y = Journals $
206 Map.unionWith (flip (<>)) x y
207 instance Semigroup j => Monoid (Journals src j) where
208 mempty = mempty
209 mappend = (<>)
210
211
212
213
214 {-
215 -- ** Type 'JournalFile'
216 newtype JournalFile = JournalFile PathFile
217 deriving (Data, Eq, NFData, Ord, Show, Typeable)
218 unJournalFile :: JournalFile -> PathFile
219 unJournalFile (JournalFile fp) = fp
220
221 -- ** Type 'JournalFileCanon'
222 newtype JournalFileCanon = JournalFileCanon JournalFile
223 deriving (Data, Eq, NFData, Ord, Show, Typeable)
224 unJournalFileCanon :: JournalFileCanon -> JournalFile
225 unJournalFileCanon (JournalFileCanon jf) = jf
226
227 journalFileCanon :: JournalFile -> IO JournalFileCanon
228 journalFileCanon (JournalFile (PathFile fp)) =
229 JournalFileCanon . JournalFile . fromString
230 <$> IO.canonicalizePath fp
231
232 newtype Journals j = Journals (Forest (Journal j))
233 deriving (Data, Eq, Show, Typeable)
234 type instance MT.Element (Journals j) = Journal j
235 instance MT.MonoFunctor (Journals j) where
236 omap f (Journals m) = Journals $ f `MT.omap` m
237 instance MT.MonoFoldable (Journals j) where
238 ofoldMap f (Journals m) = MT.ofoldMap f m
239 ofoldr f a (Journals m) = MT.ofoldr f a m
240 ofoldl' f a (Journals m) = MT.ofoldl' f a m
241 ofoldr1Ex f (Journals m) = MT.ofoldr1Ex f m
242 ofoldl1Ex' f (Journals m) = MT.ofoldl1Ex' f m
243 instance MT.MonoTraversable (Journals j) where
244 otraverse f (Journals m) = Journals <$> MT.otraverse f m
245
246
247 instance Functor Journals where
248 fmap f (Journals m) = Journals $
249 getCompose $ getCompose . fmap f $ Compose (Compose m)
250 instance Foldable Journals where
251 foldMap f (Journals m) = foldMap f $ Compose (Compose m)
252 instance Traversable Journals where
253 traverse f (Journals m) =
254 Journals . getCompose . getCompose
255 <$> traverse f (Compose (Compose m))
256
257 instance Functor Journals where
258 fmap f (Journals m) = Journals $ fmap f <$> m
259 instance Foldable Journals where
260 foldMap f (Journals m) = f `foldMap` Compose m
261 instance Traversable Journals where
262 traverse f (Journals m) =
263 Journals . getCompose <$> (f `traverse` Compose m)
264
265 journals_flatten :: Journals j -> Journal j
266 journals_flatten js@(Journals m)
267 Map.fold
268 MT.ofoldr1Ex (\j) js
269 -- | Return the 'Journal' recursively 'mappend'-ed
270 -- with its 'journal_includes', now empty.
271 journal_flatten :: (Monoid j, Semigroup j) => Journal j -> Journal j
272 journal_flatten jnl =
273 (mconcat $ (:) jnl $ journal_flatten <$>
274 journal_includes jnl) { journal_includes = [] }
275 -}
276
277 type instance MT.Element (TreeMap k a) = a
278 instance Ord k => MT.MonoFunctor (TreeMap k a)
279 instance Ord k => MT.MonoFoldable (TreeMap k a)
280 instance Ord k => MT.MonoTraversable (TreeMap k a)