421 lines
13 KiB
Haskell
421 lines
13 KiB
Haskell
module Internal.History
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( readHistStmt
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, readHistTransfer
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, insertHistory
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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.Foldable
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import Database.Persist.Monad hiding (get)
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import Internal.Database
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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.NonEmpty as NE
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import RIO.State
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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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-- readHistory
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-- :: (MonadInsertError m, MonadFinance m, MonadUnliftIO m)
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-- => FilePath
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-- -> [History]
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-- -> m [(CommitR, [DeferredTx])]
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-- readHistory root hs = do
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-- let (ts, ss) = splitHistory hs
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-- ts' <- catMaybes <$> mapErrorsIO readHistTransfer ts
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-- ss' <- catMaybes <$> mapErrorsIO (readHistStmt root) ss
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-- return $ ts' ++ ss'
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readHistTransfer
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:: (MonadInsertError m, MonadFinance m)
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=> HistTransfer
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-> m (Maybe (CommitR, [DeferredTx]))
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readHistTransfer
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m@Transfer
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{ transFrom = from
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, transTo = to
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, transCurrency = u
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, transAmounts = amts
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} = do
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whenHash_ CTManual m $ do
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bounds <- askDBState kmStatementInterval
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let precRes = lookupCurrencyPrec u
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let go Amount {amtWhen, amtValue, amtDesc} = do
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let dayRes = liftExcept $ expandDatePat bounds amtWhen
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(days, precision) <- combineError dayRes precRes (,)
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let tx day = txPair day from to u (roundPrecision precision amtValue) amtDesc
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return $ fmap tx days
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concat <$> mapErrors go amts
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groupKey :: Ord c => (a -> c) -> [(a, b)] -> [(a, [b])]
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groupKey f = fmap go . NE.groupAllWith (f . fst)
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where
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go xs@((c, _) :| _) = (c, NE.toList $ fmap snd xs)
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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 (Maybe (CommitR, [DeferredTx]))
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readHistStmt root i = whenHash_ CTImport i $ do
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bs <- readImport root i
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bounds <- askDBState kmStatementInterval
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return $ filter (inDaySpan bounds . txDate) bs
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splitHistory :: [History] -> ([HistTransfer], [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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insertHistory
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:: (MonadInsertError m, MonadSqlQuery m, MonadFinance m)
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=> [(CommitR, [DeferredTx])]
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-> m ()
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insertHistory hs = do
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bs <- balanceTxs $ concatMap (\(c, xs) -> fmap (c,) xs) hs
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forM_ (groupKey (\(CommitR h _) -> h) bs) $ \(c, ts) -> do
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ck <- insert c
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mapM_ (insertTx ck) ts
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--------------------------------------------------------------------------------
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-- low-level transaction stuff
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-- TODO tags here?
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txPair
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:: Day
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-> AcntID
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-> AcntID
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-> CurID
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-> Rational
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-> T.Text
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-> DeferredTx
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txPair day from to cur val desc =
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Tx
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{ txDescr = desc
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, txDate = day
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, txEntries =
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[ EntrySet
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{ esTotalValue = -val
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, esCurrency = cur
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, esFrom = HalfEntrySet {hesPrimary = entry from, hesOther = []}
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, esTo = HalfEntrySet {hesPrimary = entry to, hesOther = []}
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}
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]
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}
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where
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entry a =
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Entry
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{ eAcnt = a
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, eValue = ()
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, eComment = ""
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, eTags = []
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}
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resolveTx :: (MonadInsertError m, MonadFinance m) => BalTx -> m KeyTx
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resolveTx t@Tx {txEntries = ss} =
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(\kss -> t {txEntries = kss}) <$> mapErrors resolveEntry ss
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insertTx :: MonadSqlQuery m => CommitRId -> KeyTx -> m ()
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insertTx c Tx {txDate = d, txDescr = e, txEntries = ss} = do
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k <- insert $ TransactionR c d e
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mapM_ (insertEntry k) ss
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--------------------------------------------------------------------------------
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-- Statements
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-- TODO this probably won't scale well (pipes?)
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readImport :: (MonadUnliftIO m, MonadFinance m) => FilePath -> Statement -> m [DeferredTx]
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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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m <- askDBState kmCurrency
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fromEither $
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flip runReader m $
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runExceptT $
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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 . showT) 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 <- parseRational 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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-- TODO need to somehow balance temporally here (like I do in the budget for
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-- directives that "pay off" a balance)
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matchRecords :: [MatchRe] -> [TxRecord] -> InsertExceptT CurrencyM [DeferredTx]
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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_ -- liftInner $ combineErrors $ fmap balanceTx 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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:: Unzipped MatchRe
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-> TxRecord
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-> InsertExceptT CurrencyM (Zipped MatchRe, MatchRes DeferredTx)
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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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:: Zipped MatchRe
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-> TxRecord
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-> InsertExceptT CurrencyM (Zipped MatchRe, MatchRes DeferredTx)
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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 :: [MatchGroup] -> [TxRecord] -> InsertExceptT CurrencyM ([DeferredTx], [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 :: MatchGroup -> [TxRecord] -> InsertExceptT CurrencyM ([DeferredTx], [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 :: [MatchRe] -> [TxRecord] -> InsertExceptT CurrencyM ([DeferredTx], [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 :: [MatchRe] -> [TxRecord] -> InsertExceptT CurrencyM ([DeferredTx], [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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balanceTxs
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:: (MonadInsertError m, MonadFinance m)
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=> [(CommitR, DeferredTx)]
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-> m [(CommitR, KeyTx)]
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balanceTxs ts = do
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keyts <- mapErrors resolveTx =<< evalStateT (mapM go ts') M.empty
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return $ zip cs keyts
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where
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(cs, ts') = L.unzip $ L.sortOn (txDate . snd) ts
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go t@Tx {txEntries, txDate} =
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(\es -> t {txEntries = concat es}) <$> mapM (balanceEntrySet txDate) txEntries
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type EntryBals = M.Map (AcntID, CurID) Rational
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-- TODO might be faster to also do all the key stuff here since currency
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-- will be looked up for every entry rather then the entire entry set
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balanceEntrySet
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:: (MonadInsertError m, MonadFinance m)
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=> Day
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-> DeferredEntrySet
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-> StateT EntryBals m [BalEntry]
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balanceEntrySet
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day
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EntrySet
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{ esFrom = HalfEntrySet {hesPrimary = f0, hesOther = fs}
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, esTo = HalfEntrySet {hesPrimary = t0, hesOther = ts}
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, esCurrency
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, esTotalValue
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} =
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do
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let (lts, dts) = partitionEithers $ splitLinked <$> ts
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fs' <- doEntries fs esTotalValue f0
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let fv = V.fromList $ fmap eValue fs'
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lts' <- lift $ mapErrors (resolveLinked fv esCurrency day) lts
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ts' <- doEntries (dts ++ lts') (-esTotalValue) t0
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return $ toFull <$> fs' ++ ts'
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where
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doEntries es tot e0 = do
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es' <- liftInnerS $ mapM (balanceEntry esCurrency) es
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let val0 = tot - entrySum es'
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modify $ mapAdd_ (eAcnt e0, esCurrency) val0
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return $ e0 {eValue = val0} : es'
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toFull e = FullEntry {feEntry = e, feCurrency = esCurrency}
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splitLinked e@Entry {eValue} = case eValue of
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LinkIndex l -> Left e {eValue = l}
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LinkDeferred d -> Right e {eValue = d}
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liftInnerS = mapStateT (return . runIdentity)
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resolveLinked
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:: (MonadInsertError m, MonadFinance m)
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=> Vector Rational
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-> CurID
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-> Day
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-> Entry AcntID LinkedNumGetter TagID
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-> m (Entry AcntID (Deferred Rational) TagID)
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resolveLinked from cur day e@Entry {eValue = LinkedNumGetter {lngIndex, lngScale}} = do
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curMap <- askDBState kmCurrency
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case from V.!? fromIntegral lngIndex of
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Nothing -> throwError $ InsertException [IndexError e day]
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Just v -> do
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v' <- liftExcept $ roundPrecisionCur cur curMap $ lngScale * fromRational v
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return $ e {eValue = Deferred False v'}
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entrySum :: Num v => [Entry a v t] -> v
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entrySum = sum . fmap eValue
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balanceEntry
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:: CurID
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-> Entry AcntID (Deferred Rational) TagID
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-> State EntryBals (Entry AcntID Rational TagID)
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balanceEntry curID e@Entry {eValue = Deferred toBal v, eAcnt} = do
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curBal <- gets (M.findWithDefault 0 key)
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let newVal = if toBal then v - curBal else v
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modify (mapAdd_ key newVal)
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return $ e {eValue = newVal}
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where
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key = (eAcnt, curID)
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-- -- reimplementation from future version :/
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-- mapAccumM
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-- :: Monad m
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-- => (s -> a -> m (s, b))
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-- -> s
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-- -> [a]
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-- -> m (s, [b])
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-- mapAccumM f s xs = foldrM go (s, []) xs
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-- where
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-- go x (s', acc) = second (: acc) <$> f s' x
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