544 lines
17 KiB
Haskell
544 lines
17 KiB
Haskell
module Internal.History
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( readHistStmt
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, readHistTransfer
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, splitHistory
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)
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where
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import Control.Monad.Except
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import Data.Csv
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import Data.Decimal
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import Data.Foldable
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import Data.Hashable
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import GHC.Real
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import Internal.Types.Main
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import Internal.Utils
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import RIO hiding (to)
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import qualified RIO.ByteString.Lazy as BL
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import RIO.FilePath
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import qualified RIO.List as L
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import qualified RIO.Map as M
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import qualified RIO.Text as T
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import RIO.Time
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import qualified RIO.Vector as V
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import Text.Regex.TDFA hiding (matchAll)
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import Text.Regex.TDFA.Text
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-- NOTE keep statement and transfer readers separate because the former needs
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-- the IO monad, and thus will throw IO errors rather than using the ExceptT
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-- thingy
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splitHistory :: [History] -> ([PairedTransfer], [Statement])
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splitHistory = partitionEithers . fmap go
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where
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go (HistTransfer x) = Left x
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go (HistStatement x) = Right x
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--------------------------------------------------------------------------------
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-- Transfers
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readHistTransfer
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:: (MonadInsertError m, MonadFinance m)
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=> PairedTransfer
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-> m [Tx CommitR]
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readHistTransfer ht = do
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bounds <- askDBState csHistoryScope
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expandTransfer c historyName bounds ht
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where
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c = CommitR (hash ht) CTTransfer
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--------------------------------------------------------------------------------
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-- Statements
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readHistStmt
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:: (MonadUnliftIO m, MonadFinance m)
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=> FilePath
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-> Statement
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-> m [Tx CommitR]
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readHistStmt root i = do
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bs <- readImport root i
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bounds <- askDBState csHistoryScope
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return $ filter (inDaySpan bounds . txDate) $ fmap (\t -> t {txCommit = c}) bs
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where
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c = CommitR (hash i) CTTransfer
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-- TODO this probably won't scale well (pipes?)
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readImport :: (MonadUnliftIO m, MonadFinance m) => FilePath -> Statement -> m [Tx ()]
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readImport root Statement {stmtTxOpts, stmtParsers, stmtSkipLines, stmtDelim, stmtPaths} = do
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let ores = compileOptions stmtTxOpts
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let cres = combineErrors $ compileMatch <$> stmtParsers
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(compiledOptions, compiledMatches) <- liftIOExcept $ combineError ores cres (,)
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let readStmt = readImport_ stmtSkipLines stmtDelim compiledOptions
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records <- L.sort . concat <$> mapErrorsIO readStmt paths
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fromEither =<< runExceptT (matchRecords compiledMatches records)
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where
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paths = (root </>) <$> stmtPaths
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readImport_
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:: MonadUnliftIO m
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=> Natural
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-> Word
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-> TxOptsRe
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-> FilePath
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-> m [TxRecord]
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readImport_ n delim tns p = do
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res <- tryIO $ BL.readFile p
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bs <- fromEither $ first (InsertException . (: []) . InsertIOError . tshow) res
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case decodeByNameWithP (parseTxRecord p tns) opts $ skip bs of
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Left m -> throwIO $ InsertException [ParseError $ T.pack m]
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Right (_, v) -> return $ catMaybes $ V.toList v
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where
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opts = defaultDecodeOptions {decDelimiter = fromIntegral delim}
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skip = BL.intercalate "\n" . L.drop (fromIntegral n) . BL.split 10
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-- TODO handle this better, this maybe thing is a hack to skip lines with
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-- blank dates but will likely want to make this more flexible
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parseTxRecord :: FilePath -> TxOptsRe -> NamedRecord -> Parser (Maybe TxRecord)
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parseTxRecord p TxOpts {toDate, toAmountFmt, toDesc, toAmount, toOther, toDateFmt} r = do
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d <- r .: T.encodeUtf8 toDate
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if d == ""
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then return Nothing
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else do
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a <- parseDecimal toAmountFmt =<< r .: T.encodeUtf8 toAmount
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e <- r .: T.encodeUtf8 toDesc
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os <- M.fromList <$> mapM (\n -> (n,) <$> r .: T.encodeUtf8 n) toOther
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d' <- parseTimeM True defaultTimeLocale (T.unpack toDateFmt) d
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return $ Just $ TxRecord d' a e os p
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matchRecords :: MonadFinance m => [MatchRe] -> [TxRecord] -> InsertExceptT m [Tx ()]
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matchRecords ms rs = do
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(matched, unmatched, notfound) <- matchAll (matchPriorities ms) rs
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case (matched, unmatched, notfound) of
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(ms_, [], []) -> return ms_
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(_, us, ns) -> throwError $ InsertException [StatementError us ns]
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matchPriorities :: [MatchRe] -> [MatchGroup]
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matchPriorities =
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fmap matchToGroup
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. L.groupBy (\a b -> spPriority a == spPriority b)
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. L.sortOn (Down . spPriority)
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matchToGroup :: [MatchRe] -> MatchGroup
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matchToGroup ms =
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uncurry MatchGroup $
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first (L.sortOn spDate) $
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L.partition (isJust . spDate) ms
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data MatchGroup = MatchGroup
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{ mgDate :: ![MatchRe]
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, mgNoDate :: ![MatchRe]
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}
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deriving (Show)
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data Zipped a = Zipped ![a] ![a]
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data Unzipped a = Unzipped ![a] ![a] ![a]
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initZipper :: [a] -> Zipped a
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initZipper = Zipped []
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resetZipper :: Zipped a -> Zipped a
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resetZipper = initZipper . recoverZipper
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recoverZipper :: Zipped a -> [a]
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recoverZipper (Zipped as bs) = reverse as ++ bs
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zipperSlice
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:: (a -> b -> Ordering)
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-> b
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-> Zipped a
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-> Either (Zipped a) (Unzipped a)
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zipperSlice f x = go
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where
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go z@(Zipped _ []) = Left z
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go z@(Zipped bs (a : as)) =
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case f a x of
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GT -> go $ Zipped (a : bs) as
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EQ -> Right $ goEq (Unzipped bs [a] as)
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LT -> Left z
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goEq z@(Unzipped _ _ []) = z
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goEq z@(Unzipped bs cs (a : as)) =
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case f a x of
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GT -> goEq $ Unzipped (a : bs) cs as
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EQ -> goEq $ Unzipped bs (a : cs) as
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LT -> z
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zipperMatch
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:: MonadFinance m
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=> Unzipped MatchRe
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-> TxRecord
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-> InsertExceptT m (Zipped MatchRe, MatchRes (Tx ()))
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zipperMatch (Unzipped bs cs as) x = go [] cs
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where
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go _ [] = return (Zipped bs $ cs ++ as, MatchFail)
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go prev (m : ms) = do
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res <- matches m x
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case res of
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MatchFail -> go (m : prev) ms
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skipOrPass ->
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let ps = reverse prev
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ms' = maybe ms (: ms) (matchDec m)
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in return (Zipped bs $ ps ++ ms' ++ as, skipOrPass)
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zipperMatch'
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:: MonadFinance m
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=> Zipped MatchRe
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-> TxRecord
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-> InsertExceptT m (Zipped MatchRe, MatchRes (Tx ()))
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zipperMatch' z x = go z
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where
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go (Zipped bs (a : as)) = do
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res <- matches a x
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case res of
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MatchFail -> go (Zipped (a : bs) as)
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skipOrPass ->
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return (Zipped (maybe bs (: bs) $ matchDec a) as, skipOrPass)
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go z' = return (z', MatchFail)
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matchDec :: MatchRe -> Maybe MatchRe
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matchDec m = case spTimes m of
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Just 1 -> Nothing
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Just n -> Just $ m {spTimes = Just $ n - 1}
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Nothing -> Just m
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matchAll
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:: MonadFinance m
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=> [MatchGroup]
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-> [TxRecord]
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-> InsertExceptT m ([Tx ()], [TxRecord], [MatchRe])
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matchAll = go ([], [])
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where
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go (matched, unused) gs rs = case (gs, rs) of
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(_, []) -> return (matched, [], unused)
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([], _) -> return (matched, rs, unused)
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(g : gs', _) -> do
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(ts, unmatched, us) <- matchGroup g rs
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go (ts ++ matched, us ++ unused) gs' unmatched
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matchGroup
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:: MonadFinance m
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=> MatchGroup
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-> [TxRecord]
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-> InsertExceptT m ([Tx ()], [TxRecord], [MatchRe])
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matchGroup MatchGroup {mgDate = ds, mgNoDate = ns} rs = do
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(md, rest, ud) <- matchDates ds rs
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(mn, unmatched, un) <- matchNonDates ns rest
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return (md ++ mn, unmatched, filter ((/= Nothing) . spTimes) $ ud ++ un)
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matchDates
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:: MonadFinance m
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=> [MatchRe]
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-> [TxRecord]
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-> InsertExceptT m ([Tx ()], [TxRecord], [MatchRe])
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matchDates ms = go ([], [], initZipper ms)
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where
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go (matched, unmatched, z) [] =
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return
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( catMaybes matched
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, reverse unmatched
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, recoverZipper z
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)
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go (matched, unmatched, z) (r : rs) =
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case zipperSlice findDate r z of
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Left zipped -> go (matched, r : unmatched, zipped) rs
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Right unzipped -> do
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(z', res) <- zipperMatch unzipped r
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let (m, u) = case res of
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(MatchPass p) -> (Just p : matched, unmatched)
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MatchSkip -> (Nothing : matched, unmatched)
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MatchFail -> (matched, r : unmatched)
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go (m, u, z') rs
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findDate m r = maybe EQ (`compareDate` trDate r) $ spDate m
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matchNonDates
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:: MonadFinance m
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=> [MatchRe]
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-> [TxRecord]
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-> InsertExceptT m ([Tx ()], [TxRecord], [MatchRe])
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matchNonDates ms = go ([], [], initZipper ms)
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where
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go (matched, unmatched, z) [] =
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return
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( catMaybes matched
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, reverse unmatched
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, recoverZipper z
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)
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go (matched, unmatched, z) (r : rs) = do
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(z', res) <- zipperMatch' z r
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let (m, u) = case res of
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MatchPass p -> (Just p : matched, unmatched)
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MatchSkip -> (Nothing : matched, unmatched)
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MatchFail -> (matched, r : unmatched)
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in go (m, u, resetZipper z') rs
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matches :: MonadFinance m => MatchRe -> TxRecord -> InsertExceptT m (MatchRes (Tx ()))
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matches
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StatementParser {spTx, spOther, spVal, spDate, spDesc, spPriority}
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r@TxRecord {trDate, trAmount, trDesc, trOther} = do
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res <- liftInner $
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combineError3 val other desc $
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\x y z -> x && y && z && date
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if res
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then maybe (return MatchSkip) convert spTx
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else return MatchFail
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where
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val = valMatches spVal $ toRational trAmount
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date = maybe True (`dateMatches` trDate) spDate
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other = foldM (\a o -> (a &&) <$> otherMatches trOther o) True spOther
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desc = maybe (return True) (matchMaybe trDesc . snd) spDesc
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convert tg = MatchPass <$> toTx (fromIntegral spPriority) tg r
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toTx :: MonadFinance m => Int -> TxGetter -> TxRecord -> InsertExceptT m (Tx ())
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toTx
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priority
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TxGetter
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{ tgFrom
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, tgTo
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, tgCurrency
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, tgOtherEntries
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, tgScale
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}
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r@TxRecord {trAmount, trDate, trDesc} = do
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combineError curRes subRes $ \(cur, f, t) ss ->
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Tx
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{ txDate = trDate
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, txDescr = trDesc
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, txCommit = ()
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, txPrimary =
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Left $
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EntrySet
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{ esTotalValue = roundTo (cpPrec cur) trAmount *. tgScale
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, esCurrency = cpID cur
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, esFrom = f
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, esTo = t
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}
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, txOther = Left <$> ss
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, txBudget = historyName
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, txPriority = priority
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}
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where
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curRes = do
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m <- askDBState csCurrencyMap
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cur <- liftInner $ resolveCurrency m r tgCurrency
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let prec = cpPrec cur
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let fromRes = liftInner $ resolveHalfEntry resolveFromValue prec r () tgFrom
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let toRes = liftInner $ resolveHalfEntry resolveToValue prec r () tgTo
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combineError fromRes toRes (cur,,)
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subRes = mapErrors (resolveSubGetter r) tgOtherEntries
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resolveSubGetter
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:: MonadFinance m
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=> TxRecord
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-> TxSubGetter
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-> InsertExceptT m SecondayEntrySet
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resolveSubGetter r TxSubGetter {tsgFrom, tsgTo, tsgValue, tsgCurrency} = do
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m <- askDBState csCurrencyMap
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cur <- liftInner $ resolveCurrency m r tsgCurrency
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let prec = cpPrec cur
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let toRes = resolveHalfEntry resolveToValue prec r () tsgTo
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let valRes = liftInner $ resolveValue prec r tsgValue
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liftInner $ combineErrorM toRes valRes $ \t v -> do
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f <- resolveHalfEntry resolveFromValue prec r v tsgFrom
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return $
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EntrySet
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{ esTotalValue = ()
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, esCurrency = cpID cur
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, esFrom = f
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, esTo = t
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}
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resolveHalfEntry
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:: (Precision -> TxRecord -> n -> InsertExcept v')
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-> Precision
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-> TxRecord
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-> v
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-> TxHalfGetter (EntryGetter n)
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-> InsertExcept (HalfEntrySet v v')
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resolveHalfEntry f prec r v TxHalfGetter {thgAcnt, thgComment, thgTags, thgEntries} =
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combineError acntRes esRes $ \a es ->
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HalfEntrySet
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{ hesPrimary =
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Entry
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{ eAcnt = a
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, eValue = v
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, eComment = thgComment
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, eTags = thgTags
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}
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, hesOther = es
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}
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where
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acntRes = resolveAcnt r thgAcnt
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esRes = mapErrors (resolveEntry f prec r) thgEntries
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otherMatches :: M.Map T.Text T.Text -> FieldMatcherRe -> InsertExcept Bool
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otherMatches dict m = case m of
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Val (Field n mv) -> valMatches mv =<< (readRational =<< lookup_ MatchNumeric n)
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Desc (Field n (_, md)) -> (`matchMaybe` md) =<< lookup_ MatchText n
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where
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lookup_ t n = lookupErr (MatchField t) n dict
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resolveEntry
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:: (Precision -> TxRecord -> n -> InsertExcept v)
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-> Precision
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-> TxRecord
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-> EntryGetter n
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-> InsertExcept (Entry AcntID v TagID)
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resolveEntry f prec r s@Entry {eAcnt, eValue} =
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combineError acntRes valRes $ \a v -> s {eAcnt = a, eValue = v}
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where
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acntRes = resolveAcnt r eAcnt
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valRes = f prec r eValue
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resolveFromValue :: Precision -> TxRecord -> EntryNumGetter -> InsertExcept EntryValue
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resolveFromValue = resolveValue
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resolveToValue :: Precision -> TxRecord -> LinkedEntryNumGetter -> InsertExcept LinkDeferred
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resolveToValue _ _ (Linked l) = return $ LinkIndex l
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resolveToValue prec r (Getter g) = LinkDeferred <$> resolveValue prec r g
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resolveValue :: Precision -> TxRecord -> EntryNumGetter -> InsertExcept EntryValue
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resolveValue prec TxRecord {trOther, trAmount} s = case s of
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(LookupN t) -> EntryFixed . go <$> (readDouble =<< lookupErr EntryValField t trOther)
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(ConstN c) -> return $ EntryFixed $ go c
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AmountN m -> return $ EntryFixed $ trAmount *. m
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BalanceN x -> return $ EntryBalance $ go x
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PercentN x -> return $ EntryPercent x
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where
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go = realFracToDecimal prec
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resolveAcnt :: TxRecord -> EntryAcnt -> InsertExcept T.Text
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resolveAcnt = resolveEntryField AcntField
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resolveCurrency :: CurrencyMap -> TxRecord -> EntryCur -> InsertExcept CurrencyPrec
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resolveCurrency m r c = do
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i <- resolveEntryField CurField r c
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case M.lookup i m of
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Just k -> return k
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-- TODO this should be its own error (I think)
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Nothing -> throwError $ InsertException [LookupError (EntryIDField CurField) undefined]
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resolveEntryField :: EntryIDType -> TxRecord -> EntryAcnt -> InsertExcept T.Text
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resolveEntryField t TxRecord {trOther = o} s = case s of
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ConstT p -> return p
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LookupT f -> lookup_ f o
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MapT (Field f m) -> do
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k <- lookup_ f o
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lookup_ k m
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Map2T (Field (f1, f2) m) -> do
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(k1, k2) <- combineError (lookup_ f1 o) (lookup_ f2 o) (,)
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lookup_ (k1, k2) m
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where
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lookup_ :: (Ord k, Show k) => k -> M.Map k v -> InsertExcept v
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lookup_ = lookupErr (EntryIDField t)
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readDouble :: T.Text -> InsertExcept Double
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readDouble s = case readMaybe $ T.unpack s of
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Just x -> return x
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Nothing -> throwError $ InsertException [ConversionError s]
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readRational :: T.Text -> InsertExcept Rational
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readRational s = case T.split (== '.') s of
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[x] -> maybe err (return . fromInteger) $ readT x
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[x, y] -> case (readT x, readT y) of
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(Just x', Just y') ->
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let p = 10 ^ T.length y
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k = if x' >= 0 then 1 else -1
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in return $ fromInteger x' + k * y' % p
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_ -> err
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_ -> err
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where
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readT = readMaybe . T.unpack
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err = throwError $ InsertException [ConversionError s]
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compileOptions :: TxOpts T.Text -> InsertExcept TxOptsRe
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compileOptions o@TxOpts {toAmountFmt = pat} = do
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re <- compileRegex True pat
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return $ o {toAmountFmt = re}
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compileMatch :: StatementParser T.Text -> InsertExcept MatchRe
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compileMatch m@StatementParser {spDesc, spOther} = do
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combineError dres ores $ \d os -> m {spDesc = d, spOther = os}
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where
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go = compileRegex False
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dres = mapM go spDesc
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ores = combineErrors $ fmap (mapM go) spOther
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compileRegex :: Bool -> T.Text -> InsertExcept (Text, Regex)
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compileRegex groups pat = case res of
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Right re -> return (pat, re)
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Left _ -> throwError $ InsertException [RegexError pat]
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where
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res =
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compile
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(blankCompOpt {newSyntax = True})
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(blankExecOpt {captureGroups = groups})
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pat
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matchMaybe :: T.Text -> Regex -> InsertExcept Bool
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matchMaybe q re = case execute re q of
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Right res -> return $ isJust res
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Left _ -> throwError $ InsertException [RegexError "this should not happen"]
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matchGroupsMaybe :: T.Text -> Regex -> [T.Text]
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matchGroupsMaybe q re = case regexec re q of
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Right Nothing -> []
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Right (Just (_, _, _, xs)) -> xs
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-- this should never fail as regexec always returns Right
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Left _ -> []
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-- parseRational :: MonadFail m => (T.Text, Regex) -> T.Text -> m Rational
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-- parseRational (pat, re) s = case matchGroupsMaybe s re of
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-- [sign, x, ""] -> uncurry (*) <$> readWhole sign x
|
|
-- [sign, x, y] -> do
|
|
-- d <- readT "decimal" y
|
|
-- let p = 10 ^ T.length y
|
|
-- (k, w) <- readWhole sign x
|
|
-- return $ k * (w + d % p)
|
|
-- _ -> msg "malformed decimal"
|
|
-- where
|
|
-- readT what t = case readMaybe $ T.unpack t of
|
|
-- Just d -> return $ fromInteger d
|
|
-- _ -> msg $ T.unwords ["could not parse", what, singleQuote t]
|
|
-- msg :: MonadFail m => T.Text -> m a
|
|
-- msg m =
|
|
-- fail $
|
|
-- T.unpack $
|
|
-- T.unwords [m, "-", keyVals [("pattern", pat), ("query", s)]]
|
|
-- readSign x
|
|
-- | x == "-" = return (-1)
|
|
-- | x == "+" || x == "" = return 1
|
|
-- | otherwise = msg $ T.append "invalid sign: " x
|
|
-- readWhole sign x = do
|
|
-- w <- readT "whole number" x
|
|
-- k <- readSign sign
|
|
-- return (k, w)
|
|
|
|
parseDecimal :: MonadFail m => (T.Text, Regex) -> T.Text -> m Decimal
|
|
parseDecimal (pat, re) s = case matchGroupsMaybe s re of
|
|
[sign, x, ""] -> Decimal 0 . uncurry (*) <$> readWhole sign x
|
|
[sign, x, y] -> do
|
|
d <- readT "decimal" y
|
|
let p = T.length y
|
|
(k, w) <- readWhole sign x
|
|
return $ Decimal (fromIntegral p) (k * (w * (10 ^ p) + d))
|
|
_ -> msg "malformed decimal"
|
|
where
|
|
readT what t = case readMaybe $ T.unpack t of
|
|
Just d -> return $ fromInteger d
|
|
_ -> msg $ T.unwords ["could not parse", what, singleQuote t]
|
|
msg :: MonadFail m => T.Text -> m a
|
|
msg m =
|
|
fail $
|
|
T.unpack $
|
|
T.unwords [m, "-", keyVals [("pattern", pat), ("query", s)]]
|
|
readSign x
|
|
| x == "-" = return (-1)
|
|
| x == "+" || x == "" = return 1
|
|
| otherwise = msg $ T.append "invalid sign: " x
|
|
readWhole sign x = do
|
|
w <- readT "whole number" x
|
|
k <- readSign sign
|
|
return (k, w)
|
|
|
|
historyName :: T.Text
|
|
historyName = "history"
|