pwncash/lib/Internal/Utils.hs

module Internal.Utils
  ( compareDate
  , expandDatePat
  , askDays
  , fromWeekday
  , inDaySpan
  , fmtRational
  , fromGregorian'
  , resolveDaySpan
  , resolveDaySpan_
  , intersectDaySpan
  , liftInner
  , liftExceptT
  , liftExcept
  , liftIOExcept
  , liftIOExceptT
  , combineError
  , combineError_
  , combineError3
  , combineErrors
  , mapErrors
  , combineErrorM
  , combineErrorM3
  , combineErrorIO2
  , combineErrorIO3
  , combineErrorIOM2
  , combineErrorIOM3
  , collectErrorsIO
  , mapErrorsIO
  , mapErrorsPooledIO
  , showError
  , tshow
  , lookupErr
  , gregorians
  , uncurry3
  , xGregToDay
  , dateMatches
  , valMatches
  , lookupAccount
  , lookupAccountKey
  , lookupAccountType
  , lookupCurrency
  , lookupCurrencyKey
  , lookupCurrencyPrec
  , lookupTag
  , mapAdd_
  , groupKey
  , groupWith
  , balanceTxs
  , expandTransfers
  , expandTransfer
  , entryPair
  , singleQuote
  , keyVals
  )
where

import Control.Monad.Error.Class
import Control.Monad.Except
import Data.Decimal
import Data.Time.Format.ISO8601
import GHC.Real
import Internal.Types.Main
import RIO
import qualified RIO.List as L
import qualified RIO.Map as M
import qualified RIO.NonEmpty as NE
import RIO.State
import qualified RIO.Text as T
import RIO.Time
import qualified RIO.Vector as V

--------------------------------------------------------------------------------
-- intervals

expandDatePat :: DaySpan -> DatePat -> InsertExcept [Day]
expandDatePat b (Cron cp) = expandCronPat b cp
expandDatePat i (Mod mp) = return $ expandModPat mp i

expandModPat :: ModPat -> DaySpan -> [Day]
expandModPat ModPat {mpStart = s, mpBy = b, mpUnit = u, mpRepeats = r} bs =
  takeWhile (<= upper) $
    (`addFun` start) . (* b')
      <$> maybe id (take . fromIntegral) r [0 ..]
  where
    (lower, upper) = fromDaySpan bs
    start = maybe lower fromGregorian' s
    b' = fromIntegral b
    addFun = case u of
      Day -> addDays
      Week -> addDays . (* 7)
      Month -> addGregorianMonthsClip
      Year -> addGregorianYearsClip

expandCronPat :: DaySpan -> CronPat -> InsertExcept [Day]
expandCronPat b CronPat {cpYear, cpMonth, cpDay, cpWeekly} =
  combineError3 yRes mRes dRes $ \ys ms ds ->
    filter validWeekday $
      mapMaybe (uncurry3 toDay) $
        takeWhile (\((y, _), m, d) -> (y, m, d) <= (yb1, mb1, db1)) $
          dropWhile (\((y, _), m, d) -> (y, m, d) < (yb0, mb0, db0)) $
            [(y, m, d) | y <- (\y -> (y, isLeapYear y)) <$> ys, m <- ms, d <- ds]
  where
    yRes = case cpYear of
      Nothing -> return [yb0 .. yb1]
      Just pat -> do
        ys <- expandMDYPat (fromIntegral yb0) (fromIntegral yb1) pat
        return $ dropWhile (< yb0) $ fromIntegral <$> ys
    mRes = expandMD 12 cpMonth
    dRes = expandMD 31 cpDay
    (s, e) = fromDaySpan b
    (yb0, mb0, db0) = toGregorian s
    (yb1, mb1, db1) = toGregorian $ addDays (-1) e
    expandMD lim =
      fmap (fromIntegral <$>)
        . maybe (return [1 .. lim]) (expandMDYPat 1 lim)
    expandW (OnDay x) = [fromEnum x]
    expandW (OnDays xs) = fromEnum <$> xs
    ws = maybe [] expandW cpWeekly
    validWeekday = if null ws then const True else \day -> dayToWeekday day `elem` ws
    toDay (y, leap) m d
      | m == 2 && (not leap && d > 28 || leap && d > 29) = Nothing
      | m `elem` [4, 6, 9, 11] && d > 30 = Nothing
      | otherwise = Just $ fromGregorian y m d

expandMDYPat :: Natural -> Natural -> MDYPat -> InsertExcept [Natural]
expandMDYPat lower upper (Single x) = return [x | lower <= x && x <= upper]
expandMDYPat lower upper (Multi xs) = return $ dropWhile (<= lower) $ takeWhile (<= upper) xs
expandMDYPat lower upper (After x) = return [max lower x .. upper]
expandMDYPat lower upper (Before x) = return [lower .. min upper x]
expandMDYPat lower upper (Between x y) = return [max lower x .. min upper y]
expandMDYPat lower upper (Repeat RepeatPat {rpStart = s, rpBy = b, rpRepeats = r})
  | b < 1 = throwError $ InsertException [PatternError s b r ZeroLength]
  | otherwise = do
      k <- limit r
      return $ dropWhile (<= lower) $ takeWhile (<= k) [s + i * b | i <- [0 ..]]
  where
    limit Nothing = return upper
    limit (Just n)
      -- this guard not only produces the error for the user but also protects
      -- from an underflow below it
      | n < 1 = throwError $ InsertException [PatternError s b r ZeroRepeats]
      | otherwise = return $ min (s + b * (n - 1)) upper

dayToWeekday :: Day -> Int
dayToWeekday (ModifiedJulianDay d) = mod (fromIntegral d + 2) 7

askDays
  :: (MonadFinance m, MonadInsertError m)
  => DatePat
  -> Maybe Interval
  -> m [Day]
askDays dp i = do
  globalSpan <- askDBState (unBSpan . csBudgetScope)
  case i of
    Just i' -> do
      localSpan <- liftExcept $ resolveDaySpan i'
      maybe (return []) expand $ intersectDaySpan globalSpan localSpan
    Nothing -> expand globalSpan
  where
    expand = liftExcept . (`expandDatePat` dp)

--------------------------------------------------------------------------------
-- dates

-- | Lame weekday converter since day of weeks aren't in dhall (yet)
fromWeekday :: Weekday -> DayOfWeek
fromWeekday Mon = Monday
fromWeekday Tue = Tuesday
fromWeekday Wed = Wednesday
fromWeekday Thu = Thursday
fromWeekday Fri = Friday
fromWeekday Sat = Saturday
fromWeekday Sun = Sunday

-- | find the next date
-- this is meant to go in a very tight loop and be very fast (hence no
-- complex date functions, most of which heavily use 'mod' and friends)
nextXGreg :: XGregorian -> XGregorian
nextXGreg XGregorian {xgYear = y, xgMonth = m, xgDay = d, xgDayOfWeek = w}
  | m == 12 && d == 31 = XGregorian (y + 1) 1 1 w_
  | (m == 2 && (not leap && d == 28 || (leap && d == 29)))
      || (m `elem` [4, 6, 9, 11] && d == 30)
      || (d == 31) =
      XGregorian y (m + 1) 1 w_
  | otherwise = XGregorian y m (d + 1) w_
  where
    -- don't use DayOfWeek from Data.Time since this uses mod (which uses a
    -- division opcode) and thus will be slower than just checking for equality
    -- and adding
    w_ = if w == 6 then 0 else w + 1
    leap = isLeapYear $ fromIntegral y

gregorians :: Day -> [XGregorian]
gregorians x = L.iterate nextXGreg $ XGregorian (fromIntegral y) m d w
  where
    (y, m, d) = toGregorian x
    w = fromEnum $ dayOfWeek x

xGregToDay :: XGregorian -> Day
xGregToDay XGregorian {xgYear = y, xgMonth = m, xgDay = d} = fromGregorian (fromIntegral y) m d

gregTup :: Gregorian -> (Integer, Int, Int)
gregTup Gregorian {gYear, gMonth, gDay} =
  ( fromIntegral gYear
  , fromIntegral gMonth
  , fromIntegral gDay
  )

gregMTup :: GregorianM -> (Integer, Int)
gregMTup GregorianM {gmYear, gmMonth} =
  ( fromIntegral gmYear
  , fromIntegral gmMonth
  )

data YMD_ = Y_ !Integer | YM_ !Integer !Int | YMD_ !Integer !Int !Int

fromYMDMatcher :: YMDMatcher -> YMD_
fromYMDMatcher m = case m of
  Y y -> Y_ $ fromIntegral y
  YM g -> uncurry YM_ $ gregMTup g
  YMD g -> uncurry3 YMD_ $ gregTup g

compareDate :: DateMatcher -> Day -> Ordering
compareDate (On md) x =
  case fromYMDMatcher md of
    Y_ y' -> compare y y'
    YM_ y' m' -> compare (y, m) (y', m')
    YMD_ y' m' d' -> compare (y, m, d) (y', m', d')
  where
    (y, m, d) = toGregorian x
compareDate (In md offset) x = do
  case fromYMDMatcher md of
    Y_ y' -> compareRange y' y
    YM_ y' m' -> compareRange (toMonth y' m') $ toMonth y m
    YMD_ y' m' d' ->
      let s = toModifiedJulianDay $ fromGregorian y' m' d'
       in compareRange s $ toModifiedJulianDay x
  where
    (y, m, _) = toGregorian x
    compareRange start z
      | z < start = LT
      | otherwise = if (start + fromIntegral offset - 1) < z then GT else EQ
    toMonth year month = (year * 12) + fromIntegral month

fromGregorian' :: Gregorian -> Day
fromGregorian' = uncurry3 fromGregorian . gregTup

inDaySpan :: DaySpan -> Day -> Bool
inDaySpan bs = withinDays (fromDaySpan bs)

withinDays :: (Day, Day) -> Day -> Bool
withinDays (d0, d1) x = d0 <= x && x < d1

resolveDaySpan :: Interval -> InsertExcept DaySpan
resolveDaySpan i@Interval {intStart = s} =
  resolveDaySpan_ (s {gYear = gYear s + 50}) i

intersectDaySpan :: DaySpan -> DaySpan -> Maybe DaySpan
intersectDaySpan a b =
  if b' > a' then Nothing else Just $ toDaySpan (a', b')
  where
    (a0, a1) = fromDaySpan a
    (b0, b1) = fromDaySpan b
    a' = max a0 a1
    b' = min b0 b1

resolveDaySpan_ :: Gregorian -> Interval -> InsertExcept DaySpan
resolveDaySpan_ def Interval {intStart = s, intEnd = e} =
  -- TODO the default isn't checked here :/
  case fromGregorian' <$> e of
    Nothing -> return $ toDaySpan_ $ fromGregorian' def
    Just e_
      | s_ < e_ -> return $ toDaySpan_ e_
      | otherwise -> throwError $ InsertException [DaySpanError s e]
  where
    s_ = fromGregorian' s
    toDaySpan_ end = toDaySpan (s_, end)

fromDaySpan :: DaySpan -> (Day, Day)
fromDaySpan (d, n) = (d, addDays (fromIntegral n + 1) d)

-- ASSUME a < b
toDaySpan :: (Day, Day) -> DaySpan
toDaySpan (a, b) = (a, fromIntegral $ diffDays b a - 1)

--------------------------------------------------------------------------------
-- matching

valMatches :: ValMatcher -> Rational -> InsertExcept Bool
valMatches ValMatcher {vmDen, vmSign, vmNum, vmPrec} x
  | Just d_ <- vmDen, d_ >= p = throwError $ InsertException [MatchValPrecisionError d_ p]
  | otherwise =
      return $
        checkMaybe (s ==) vmSign
          && checkMaybe (n ==) vmNum
          && checkMaybe ((d * fromIntegral p ==) . fromIntegral) vmDen
  where
    (n, d) = properFraction $ abs x
    p = 10 ^ vmPrec
    s = signum x >= 0
    checkMaybe = maybe True

dateMatches :: DateMatcher -> Day -> Bool
dateMatches md = (EQ ==) . compareDate md

liftInner :: Monad m => ExceptT e Identity a -> ExceptT e m a
liftInner = mapExceptT (return . runIdentity)

liftExceptT :: MonadError e m => ExceptT e m a -> m a
liftExceptT x = runExceptT x >>= either throwError return

liftExcept :: MonadError e m => Except e a -> m a
liftExcept = either throwError return . runExcept

liftIOExceptT :: MonadIO m => InsertExceptT m a -> m a
liftIOExceptT = fromEither <=< runExceptT

liftIOExcept :: MonadIO m => InsertExcept a -> m a
liftIOExcept = fromEither . runExcept

combineError :: MonadError InsertException m => m a -> m b -> (a -> b -> c) -> m c
combineError a b f = combineErrorM a b (\x y -> pure $ f x y)

combineError_ :: MonadError InsertException m => m a -> m b -> m ()
combineError_ a b = do
  _ <- catchError a $ \e ->
    throwError =<< catchError (e <$ b) (return . (e <>))
  _ <- b
  return ()

combineErrorM :: MonadError InsertException m => m a -> m b -> (a -> b -> m c) -> m c
combineErrorM a b f = do
  a' <- catchError a $ \e ->
    throwError =<< catchError (e <$ b) (return . (e <>))
  f a' =<< b

combineError3 :: MonadError InsertException m => m a -> m b -> m c -> (a -> b -> c -> d) -> m d
combineError3 a b c f =
  combineError (combineError a b (,)) c $ \(x, y) z -> f x y z

combineErrorM3 :: MonadError InsertException m => m a -> m b -> m c -> (a -> b -> c -> m d) -> m d
combineErrorM3 a b c f = do
  combineErrorM (combineErrorM a b (curry return)) c $ \(x, y) z -> f x y z

mapErrors
  :: (Traversable t, MonadError InsertException m)
  => (a -> m b)
  -> t a
  -> m (t b)
-- First, record number of each action. Then try each action. On first failure,
-- note it's position in the sequence, skip ahead to the untried actions,
-- collect failures and add to the first failure.
mapErrors f xs = mapM go $ enumTraversable xs
  where
    go (n, x) = catchError (f x) $ \e -> do
      es <- fmap catMaybes $ mapM (err . f) $ drop (n + 1) $ toList xs
      throwError $ foldr (<>) e es
    err x = catchError (Nothing <$ x) (pure . Just)

combineErrors :: (Traversable t, MonadError InsertException m) => t (m a) -> m (t a)
combineErrors = mapErrors id

enumTraversable :: (Num n, Traversable t) => t a -> t (n, a)
enumTraversable = snd . L.mapAccumL go 0
  where
    go n x = (n + 1, (n, x))

combineErrorIO2 :: MonadUnliftIO m => m a -> m b -> (a -> b -> c) -> m c
combineErrorIO2 a b f = combineErrorIOM2 a b (\x y -> pure $ f x y)

combineErrorIO3 :: MonadUnliftIO m => m a -> m b -> m c -> (a -> b -> c -> d) -> m d
combineErrorIO3 a b c f = combineErrorIOM3 a b c (\x y z -> pure $ f x y z)

combineErrorIOM2 :: MonadUnliftIO m => m a -> m b -> (a -> b -> m c) -> m c
combineErrorIOM2 a b f = do
  a' <- catch a $ \(InsertException es) ->
    (throwIO . InsertException)
      =<< catch (es <$ b) (\(InsertException es') -> return (es' ++ es))
  f a' =<< b

combineErrorIOM3 :: MonadUnliftIO m => m a -> m b -> m c -> (a -> b -> c -> m d) -> m d
combineErrorIOM3 a b c f =
  combineErrorIOM2 (combineErrorIOM2 a b (curry return)) c $ \(x, y) z -> f x y z

mapErrorsPooledIO :: (Traversable t, MonadUnliftIO m) => Int -> (a -> m b) -> t a -> m (t b)
mapErrorsPooledIO t f xs = pooledMapConcurrentlyN t go $ enumTraversable xs
  where
    go (n, x) = catch (f x) $ \(InsertException e) -> do
      es <- fmap catMaybes $ mapM (err . f) $ drop (n + 1) $ toList xs
      throwIO $ InsertException $ foldr (<>) e es
    err x = catch (Nothing <$ x) $ \(InsertException es) -> pure $ Just es

mapErrorsIO :: (Traversable t, MonadUnliftIO m) => (a -> m b) -> t a -> m (t b)
mapErrorsIO f xs = mapM go $ enumTraversable xs
  where
    go (n, x) = catch (f x) $ \(InsertException e) -> do
      es <- fmap catMaybes $ mapM (err . f) $ drop (n + 1) $ toList xs
      throwIO $ InsertException $ foldr (<>) e es
    err x = catch (Nothing <$ x) $ \(InsertException es) -> pure $ Just es

collectErrorsIO :: (Traversable t, MonadUnliftIO m) => t (m a) -> m (t a)
collectErrorsIO = mapErrorsIO id

lookupErr :: (Ord k, Show k) => LookupSuberr -> k -> M.Map k v -> InsertExcept v
lookupErr what k m = case M.lookup k m of
  Just x -> return x
  _ -> throwError $ InsertException [LookupError what $ tshow k]

fmtRational :: Natural -> Rational -> T.Text
fmtRational precision x = T.concat [s, txt n', ".", pad 2 "0" $ txt d']
  where
    s = if x >= 0 then "" else "-"
    x'@(n :% d) = abs x
    p = 10 ^ precision
    n' = div n d
    d' = (\(a :% b) -> div a b) ((x' - fromIntegral n') * p)
    txt = T.pack . show
    pad i c z = T.append (T.replicate (i - T.length z) c) z

--------------------------------------------------------------------------------
-- error display

showError :: InsertError -> [T.Text]
showError other = case other of
  (StatementError ts ms) -> (tshowx <$> ts) ++ (showMatch <$> ms)
  (DaySpanError a b) ->
    [T.unwords ["Could not create bounds from", showGregorian_ a, "and", showGreg b]]
    where
      showGreg (Just g) = showGregorian_ g
      showGreg Nothing = "Inf"
  (AccountError a ts) ->
    [ T.unwords
        [ "account type of key"
        , singleQuote $ unAcntID a
        , "is not one of:"
        , ts_
        ]
    ]
    where
      ts_ = T.intercalate ", " $ NE.toList $ fmap atName ts
  (PatternError s b r p) -> [T.unwords [msg, "in pattern: ", pat]]
    where
      pat =
        keyVals $
          [ (k, v)
          | (k, Just v) <-
              [ ("start", Just $ tshow s)
              , ("by", Just $ tshow b)
              , ("repeats", tshow <$> r)
              ]
          ]
      msg = case p of
        ZeroLength -> "Zero repeat length"
        ZeroRepeats -> "Zero repeats"
  (RegexError re) -> [T.append "could not make regex from pattern: " re]
  (ConversionError x) -> [T.append "Could not convert to rational number: " x]
  (InsertIOError msg) -> [T.append "IO Error: " msg]
  (ParseError msg) -> [T.append "Parse Error: " msg]
  (MatchValPrecisionError d p) ->
    [T.unwords ["Match denominator", tshow d, "must be less than", tshow p]]
  (LookupError t f) ->
    [T.unwords ["Could not find field", f, "when resolving", what]]
    where
      what = case t of
        EntryIDField st -> T.unwords ["entry", idName st, "ID"]
        EntryValField -> "entry value"
        MatchField mt -> T.unwords [matchName mt, "match"]
        DBKey st -> T.unwords ["database", idName st, "ID key"]
      -- TODO this should be its own function
      idName AcntField = "account"
      idName CurField = "currency"
      idName TagField = "tag"
      matchName MatchNumeric = "numeric"
      matchName MatchText = "text"
  (IncomeError day name balance) ->
    [ T.unwords
        [ "Income allocations for budget"
        , singleQuote name
        , "exceed total on day"
        , tshow day
        , "where balance is"
        , tshow (fromRational balance :: Double)
        ]
    ]
  (PeriodError start next) ->
    [ T.unwords
        [ "First pay period on "
        , singleQuote $ tshow start
        , "must start before first income payment on "
        , singleQuote $ tshow next
        ]
    ]
  (IndexError Entry {eValue = LinkedNumGetter {lngIndex}, eAcnt} day) ->
    [ T.unwords
        [ "No credit entry for index"
        , singleQuote $ tshow lngIndex
        , "for entry with account"
        , singleQuote $ unAcntID eAcnt
        , "on"
        , tshow day
        ]
    ]
  (RoundError cur) ->
    [ T.unwords
        [ "Could not look up precision for currency"
        , singleQuote $ unCurID cur
        ]
    ]

showGregorian_ :: Gregorian -> T.Text
showGregorian_ Gregorian {gYear, gMonth, gDay} = T.intercalate "-" $ tshow <$> [gYear, gMonth, gDay]

tshowx :: TxRecord -> T.Text
tshowx TxRecord {trDate = d, trAmount = v, trDesc = e, trFile = f} =
  T.append "Unmatched transaction: " $
    keyVals
      [ ("path", T.pack f)
      , ("date", T.pack $ iso8601Show d)
      , ("value", tshow v)
      , ("description", doubleQuote e)
      ]

showMatch :: MatchRe -> T.Text
showMatch StatementParser {spDate, spVal, spDesc, spOther, spTimes, spPriority} =
  T.append "Unused match: " $ keyVals [(x, y) | (x, Just y) <- kvs]
  where
    kvs =
      [ ("date", showDateMatcher <$> spDate)
      , ("val", showValMatcher spVal)
      , ("desc", fst <$> spDesc)
      , ("other", others)
      , ("counter", Just $ maybe "Inf" tshow spTimes)
      , ("priority", Just $ tshow spPriority)
      ]
    others = case spOther of
      [] -> Nothing
      xs -> Just $ singleQuote $ T.concat $ showMatchOther <$> xs

-- | Convert match date to text
-- Single date matches will just show the single date, and ranged matches will
-- show an interval like [YY-MM-DD, YY-MM-DD)
showDateMatcher :: DateMatcher -> T.Text
showDateMatcher md = case md of
  (On x) -> showYMDMatcher x
  (In start n) -> T.concat ["[", showYMDMatcher start, " ", showYMD_ end, ")"]
    where
      -- TODO not DRY (this shifting thing happens during the comparison
      -- function (kinda)
      end = case fromYMDMatcher start of
        Y_ y -> Y_ $ y + fromIntegral n
        YM_ y m ->
          let (y_, m_) = divMod (m + fromIntegral n - 1) 12
           in YM_ (y + fromIntegral y_) (m + m_ + 1)
        YMD_ y m d ->
          uncurry3 YMD_ $
            toGregorian $
              addDays (fromIntegral n) $
                fromGregorian y m d

-- | convert YMD match to text
showYMDMatcher :: YMDMatcher -> T.Text
showYMDMatcher = showYMD_ . fromYMDMatcher

showYMD_ :: YMD_ -> T.Text
showYMD_ md =
  T.intercalate "-" $ L.take 3 (fmap tshow digits ++ L.repeat "*")
  where
    digits = case md of
      Y_ y -> [fromIntegral y]
      YM_ y m -> [fromIntegral y, m]
      YMD_ y m d -> [fromIntegral y, m, d]

showValMatcher :: ValMatcher -> Maybe T.Text
showValMatcher ValMatcher {vmSign = Nothing, vmNum = Nothing, vmDen = Nothing} = Nothing
showValMatcher ValMatcher {vmNum, vmDen, vmSign, vmPrec} =
  Just $ singleQuote $ keyVals [(k, v) | (k, Just v) <- kvs]
  where
    kvs =
      [ ("sign", (\s -> if s then "+" else "-") <$> vmSign)
      , ("numerator", tshow <$> vmNum)
      , ("denominator", tshow <$> vmDen)
      , ("precision", Just $ tshow vmPrec)
      ]

showMatchOther :: FieldMatcherRe -> T.Text
showMatchOther (Desc (Field f (re, _))) =
  T.unwords ["desc field", singleQuote f, "with re", singleQuote re]
showMatchOther (Val (Field f mv)) =
  T.unwords
    [ "val field"
    , singleQuote f
    , "with match value"
    , singleQuote $ fromMaybe "*" $ showValMatcher mv
    ]

singleQuote :: T.Text -> T.Text
singleQuote t = T.concat ["'", t, "'"]

doubleQuote :: T.Text -> T.Text
doubleQuote t = T.concat ["'", t, "'"]

keyVal :: T.Text -> T.Text -> T.Text
keyVal a b = T.concat [a, "=", b]

keyVals :: [(T.Text, T.Text)] -> T.Text
keyVals = T.intercalate "; " . fmap (uncurry keyVal)

--------------------------------------------------------------------------------
-- random functions

groupKey :: Ord c => (a -> c) -> [(a, b)] -> [(a, NonEmpty b)]
groupKey f = fmap go . NE.groupAllWith (f . fst)
  where
    go xs@((c, _) :| _) = (c, fmap snd xs)

groupWith :: Ord b => (a -> b) -> [a] -> [(b, NonEmpty a)]
groupWith f = fmap go . NE.groupAllWith fst . fmap (\x -> (f x, x))
  where
    go xs@((c, _) :| _) = (c, fmap snd xs)

mapAdd_ :: (Ord k, Num v) => k -> v -> M.Map k v -> M.Map k v
mapAdd_ k v = M.alter (maybe (Just v) (Just . (+ v))) k

uncurry3 :: (a -> b -> c -> d) -> (a, b, c) -> d
uncurry3 f (a, b, c) = f a b c

lookupAccount :: (MonadInsertError m, MonadFinance m) => AcntID -> m (AccountRId, AcntType)
lookupAccount = lookupFinance AcntField csAccountMap

lookupAccountKey :: (MonadInsertError m, MonadFinance m) => AcntID -> m AccountRId
lookupAccountKey = fmap fst . lookupAccount

lookupAccountType :: (MonadInsertError m, MonadFinance m) => AcntID -> m AcntType
lookupAccountType = fmap snd . lookupAccount

lookupCurrency :: (MonadInsertError m, MonadFinance m) => CurID -> m CurrencyPrec
lookupCurrency = lookupFinance CurField csCurrencyMap

lookupCurrencyKey :: (MonadInsertError m, MonadFinance m) => CurID -> m CurrencyRId
lookupCurrencyKey = fmap cpID . lookupCurrency

lookupCurrencyPrec :: (MonadInsertError m, MonadFinance m) => CurID -> m Precision
lookupCurrencyPrec = fmap cpPrec . lookupCurrency

lookupTag :: (MonadInsertError m, MonadFinance m) => TagID -> m TagRId
lookupTag = lookupFinance TagField csTagMap

lookupFinance
  :: (MonadInsertError m, MonadFinance m, Ord k, Show k)
  => EntryIDType
  -> (ConfigState -> M.Map k a)
  -> k
  -> m a
lookupFinance t f c = (liftExcept . lookupErr (DBKey t) c) =<< askDBState f

balanceTxs
  :: (MonadInsertError m, MonadFinance m)
  => [EntryBin]
  -> m ([UEBalanced], [InsertTx])
balanceTxs ebs =
  first concat . partitionEithers . catMaybes
    <$> evalStateT (mapErrors go $ L.sortOn binDate ebs) M.empty
  where
    go (ToUpdate utx) =
      fmap (Just . Left) $
        liftInnerS $
          either rebalanceTotalEntrySet rebalanceFullEntrySet utx
    go (ToRead ReadEntry {reCurrency, reAcnt, reValue, reBudget}) = do
      modify $ mapAdd_ (reAcnt, (reCurrency, reBudget)) reValue
      return Nothing
    go (ToInsert Tx {txPrimary, txOther, txDescr, txCommit, txDate, txBudget, txPriority}) = do
      e <- either (balancePrimaryEntrySet txBudget) (balanceSecondaryEntrySet txBudget) txPrimary
      let tot = sum $ fmap (eValue . ieEntry) $ NE.toList $ iesFromEntries e
      es <- mapErrors (goOther tot) txOther
      let tx =
            -- TODO this is lame
            InsertTx
              { itxDescr = txDescr
              , itxDate = txDate
              , itxEntrySets = e :| es
              , itxCommit = txCommit
              , itxBudget = txBudget
              , itxPriority = txPriority
              }
      return $ Just $ Right tx
      where
        goOther tot =
          either
            (balanceSecondaryEntrySet txBudget)
            (balancePrimaryEntrySet txBudget . fromShadow tot)
        fromShadow tot e@EntrySet {esTotalValue} = e {esTotalValue = tot *. esTotalValue}

binDate :: EntryBin -> (Day, Int)
binDate (ToRead ReadEntry {reDate, rePriority}) = (reDate, rePriority)
binDate (ToInsert Tx {txDate, txPriority}) = (txDate, txPriority)
binDate (ToUpdate u) = either go go u
  where
    go UpdateEntrySet {utDate, utPriority} = (utDate, utPriority)

type BCKey = (CurrencyRId, Text)

type ABCKey = (AccountRId, BCKey)

type EntryBals = M.Map ABCKey Decimal

--------------------------------------------------------------------------------
-- rebalancing

-- TODO make sure new values are rounded properly here
rebalanceTotalEntrySet :: TotalUpdateEntrySet -> State EntryBals [UEBalanced]
rebalanceTotalEntrySet
  UpdateEntrySet
    { utFrom0 = (f0@UpdateEntry {ueAcnt = f0Acnt}, f0links)
    , utTo0
    , utFromUnk
    , utToUnk
    , utFromRO
    , utToRO
    , utCurrency
    , utTotalValue
    , utBudget
    } =
    do
      (fval, fs, tpairs) <- rebalanceDebit bc utFromRO utFromUnk
      let f0val = utTotalValue - fval
      modify $ mapAdd_ (f0Acnt, bc) f0val
      let tsLinked = tpairs ++ (unlink f0val <$> f0links)
      ts <- rebalanceCredit bc utTotalValue utTo0 utToUnk utToRO tsLinked
      return (f0 {ueValue = StaticValue f0val} : fs ++ ts)
    where
      bc = (utCurrency, utBudget)

rebalanceFullEntrySet :: FullUpdateEntrySet -> State EntryBals [UEBalanced]
rebalanceFullEntrySet
  UpdateEntrySet
    { utFrom0
    , utTo0
    , utFromUnk
    , utToUnk
    , utFromRO
    , utToRO
    , utCurrency
    , utBudget
    } =
    do
      (ftot, fs, tpairs) <- rebalanceDebit bc rs ls
      ts <- rebalanceCredit bc ftot utTo0 utToUnk utToRO tpairs
      return (fs ++ ts)
    where
      (rs, ls) = case utFrom0 of
        Left x -> (x : utFromRO, utFromUnk)
        Right x -> (utFromRO, x : utFromUnk)
      bc = (utCurrency, utBudget)

rebalanceDebit
  :: BCKey
  -> [UE_RO]
  -> [(UEUnk, [UELink])]
  -> State EntryBals (Decimal, [UEBalanced], [UEBalanced])
rebalanceDebit k ro linked = do
  (tot, (tpairs, fs)) <-
    fmap (second (partitionEithers . concat)) $
      sumM goFrom $
        L.sortOn idx $
          (Left <$> ro) ++ (Right <$> linked)
  return (tot, fs, tpairs)
  where
    idx = either ueIndex (ueIndex . fst)
    goFrom (Left e) = (,[]) <$> updateFixed k e
    goFrom (Right (e0, es)) = do
      v <- updateUnknown k e0
      let e0' = Right $ e0 {ueValue = StaticValue v}
      let es' = Left . unlink v <$> es
      return (v, e0' : es')

unlink :: Decimal -> UELink -> UEBalanced
unlink v e = e {ueValue = StaticValue $ (-v) * unLinkScale (ueValue e)}

rebalanceCredit
  :: BCKey
  -> Decimal
  -> UEBlank
  -> [UEUnk]
  -> [UE_RO]
  -> [UEBalanced]
  -> State EntryBals [UEBalanced]
rebalanceCredit k tot t0 us rs bs = do
  (tval, ts) <-
    fmap (second catMaybes) $
      sumM goTo $
        L.sortOn idx $
          (UETLinked <$> bs)
            ++ (UETUnk <$> us)
            ++ (UETReadOnly <$> rs)
  return (t0 {ueValue = StaticValue (-(tot + tval))} : ts)
  where
    idx = projectUET ueIndex ueIndex ueIndex
    goTo (UETReadOnly e) = (,Nothing) <$> updateFixed k e
    goTo (UETLinked e) = (,Just e) <$> updateFixed k e
    goTo (UETUnk e) = do
      v <- updateUnknown k e
      return (v, Just $ e {ueValue = StaticValue v})

data UpdateEntryType a b
  = UETReadOnly UE_RO
  | UETUnk a
  | UETLinked b

projectUET :: (UE_RO -> c) -> (a -> c) -> (b -> c) -> UpdateEntryType a b -> c
projectUET f _ _ (UETReadOnly e) = f e
projectUET _ f _ (UETUnk e) = f e
projectUET _ _ f (UETLinked p) = f p

updateFixed :: BCKey -> UpdateEntry i StaticValue -> State EntryBals Decimal
updateFixed k e = do
  let v = unStaticValue $ ueValue e
  modify $ mapAdd_ (ueAcnt e, k) v
  return v

updateUnknown :: BCKey -> UpdateEntry i EntryValueUnk -> State EntryBals Decimal
updateUnknown k e = do
  let key = (ueAcnt e, k)
  curBal <- gets (M.findWithDefault 0 key)
  let v = case ueValue e of
        EVPercent p -> curBal *. p
        EVBalance p -> p - curBal
  modify $ mapAdd_ key v
  return v

--------------------------------------------------------------------------------
-- balancing

balancePrimaryEntrySet
  :: (MonadInsertError m, MonadFinance m)
  => T.Text
  -> PrimaryEntrySet
  -> StateT EntryBals m InsertEntrySet
balancePrimaryEntrySet
  budgetName
  EntrySet
    { esFrom = HalfEntrySet {hesPrimary = f0, hesOther = fs}
    , esTo = HalfEntrySet {hesPrimary = t0, hesOther = ts}
    , esCurrency
    , esTotalValue
    } =
    do
      let f0res = resolveAcntAndTags f0
      let t0res = resolveAcntAndTags t0
      let fsres = mapErrors resolveAcntAndTags fs
      let tsres = mapErrors resolveAcntAndTags ts
      let bc = (esCurrency, budgetName)
      combineErrorM (combineError f0res fsres (,)) (combineError t0res tsres (,)) $
        \(f0', fs') (t0', ts') -> do
          let balFrom = fmap liftInnerS . balanceDeferred
          fs'' <- balanceTotalEntrySet balFrom bc esTotalValue f0' fs'
          balanceFinal bc (-esTotalValue) fs'' t0' ts'

balanceSecondaryEntrySet
  :: (MonadInsertError m, MonadFinance m)
  => T.Text
  -> SecondayEntrySet
  -> StateT EntryBals m InsertEntrySet
balanceSecondaryEntrySet
  budgetName
  EntrySet
    { esFrom = HalfEntrySet {hesPrimary = f0, hesOther = fs}
    , esTo = HalfEntrySet {hesPrimary = t0, hesOther = ts}
    , esCurrency
    } =
    do
      let fsRes = mapErrors resolveAcntAndTags (f0 :| fs)
      let t0Res = resolveAcntAndTags t0
      let tsRes = mapErrors resolveAcntAndTags ts
      combineErrorM fsRes (combineError t0Res tsRes (,)) $ \fs' (t0', ts') -> do
        fs'' <- mapErrors balFrom fs'
        let tot = entrySum (NE.toList fs'')
        balanceFinal bc (-tot) fs'' t0' ts'
    where
      entrySum = sum . fmap (eValue . ieEntry)
      balFrom = balanceEntry (fmap liftInnerS . balanceDeferred) bc
      bc = (esCurrency, budgetName)

balanceFinal
  :: (MonadInsertError m)
  => BCKey
  -> Decimal
  -> NonEmpty InsertEntry
  -> Entry AccountRId () TagRId
  -> [Entry AccountRId LinkDeferred TagRId]
  -> StateT EntryBals m InsertEntrySet
balanceFinal k@(curID, _) tot fs t0 ts = do
  let fv = V.fromList $ NE.toList $ fmap (eValue . ieEntry) fs
  let balTo = balanceLinked fv
  ts' <- balanceTotalEntrySet balTo k tot t0 ts
  return $
    InsertEntrySet
      { iesCurrency = curID
      , iesFromEntries = fs
      , iesToEntries = ts'
      }

balanceTotalEntrySet
  :: (MonadInsertError m)
  => (ABCKey -> v -> StateT EntryBals m (Decimal, Maybe DBDeferred))
  -> BCKey
  -> Decimal
  -> Entry AccountRId () TagRId
  -> [Entry AccountRId v TagRId]
  -> StateT EntryBals m (NonEmpty InsertEntry)
balanceTotalEntrySet f k tot e@Entry {eAcnt = acntID} es = do
  es' <- mapErrors (balanceEntry f k) es
  let e0val = tot - entrySum es'
  -- TODO not dry
  modify (mapAdd_ (acntID, k) e0val)
  let e' =
        InsertEntry
          { ieEntry = e {eValue = e0val, eAcnt = acntID}
          , ieDeferred = Nothing
          }
  return $ e' :| es'
  where
    entrySum = sum . fmap (eValue . ieEntry)

liftInnerS :: Monad m => StateT e Identity a -> StateT e m a
liftInnerS = mapStateT (return . runIdentity)

balanceLinked
  :: MonadInsertError m
  => Vector Decimal
  -> ABCKey
  -> LinkDeferred
  -> StateT EntryBals m (Decimal, Maybe DBDeferred)
balanceLinked from k lg = case lg of
  (LinkIndex LinkedNumGetter {lngIndex, lngScale}) -> do
    let res = fmap (go lngScale) $ from V.!? fromIntegral lngIndex
    case res of
      Just v -> return (v, Just $ DBEntryLinked lngIndex lngScale)
      -- TODO this error would be much more informative if I had access to the
      -- file from which it came
      Nothing -> throwError undefined
  (LinkDeferred d) -> liftInnerS $ balanceDeferred k d
  where
    go s = negate . (*. s)

balanceDeferred :: ABCKey -> EntryValue -> State EntryBals (Decimal, Maybe DBDeferred)
balanceDeferred k e = do
  newval <- findBalance k e
  let d = case e of
        EntryFixed _ -> Nothing
        EntryBalance v -> Just $ DBEntryBalance v
        EntryPercent v -> Just $ DBEntryPercent v
  return (newval, d)

balanceEntry
  :: (MonadInsertError m)
  => (ABCKey -> v -> StateT EntryBals m (Decimal, Maybe DBDeferred))
  -> BCKey
  -> Entry AccountRId v TagRId
  -> StateT EntryBals m InsertEntry
balanceEntry f k e@Entry {eValue, eAcnt = acntID} = do
  (newVal, deferred) <- f (acntID, k) eValue
  modify (mapAdd_ (acntID, k) newVal)
  return $
    InsertEntry
      { ieEntry = e {eValue = newVal, eAcnt = acntID}
      , ieDeferred = deferred
      }

resolveAcntAndTags
  :: (MonadInsertError m, MonadFinance m)
  => Entry AcntID v TagID
  -> m (Entry AccountRId v TagRId)
resolveAcntAndTags e@Entry {eAcnt, eTags} = do
  let acntRes = lookupAccountKey eAcnt
  let tagRes = mapErrors lookupTag eTags
  combineError acntRes tagRes $ \a ts -> e {eAcnt = a, eTags = ts}

findBalance :: ABCKey -> EntryValue -> State EntryBals Decimal
findBalance k e = do
  curBal <- gets (M.findWithDefault 0 k)
  return $ case e of
    EntryBalance b -> b - curBal
    EntryPercent p -> curBal *. p
    EntryFixed v -> v

--------------------------------------------------------------------------------
-- transfers

expandTransfers
  :: (MonadInsertError m, MonadFinance m)
  => CommitR
  -> T.Text
  -> DaySpan
  -> [PairedTransfer]
  -> m [Tx CommitR]
expandTransfers tc name bounds = fmap concat . mapErrors (expandTransfer tc name bounds)

expandTransfer
  :: (MonadInsertError m, MonadFinance m)
  => CommitR
  -> T.Text
  -> DaySpan
  -> PairedTransfer
  -> m [Tx CommitR]
expandTransfer tc name bounds Transfer {transAmounts, transTo, transCurrency, transFrom} = do
  txs <- mapErrors go transAmounts
  return $ concat txs
  where
    go
      Amount
        { amtWhen = pat
        , amtValue = TransferValue {tvVal = v, tvType = t}
        , amtDesc = desc
        , amtPriority = pri
        } = do
        cp <- lookupCurrency transCurrency
        let v' = (-v)
        let dec = realFracToDecimal (cpPrec cp) v'
        let v'' = case t of
              TFixed -> EntryFixed dec
              TPercent -> EntryPercent v'
              TBalance -> EntryBalance dec
        withDates bounds pat $ \day ->
          return
            Tx
              { txCommit = tc
              , txDate = day
              , txPrimary = Right $ entryPair transFrom transTo (cpID cp) desc () v''
              , txOther = []
              , txDescr = desc
              , txBudget = name
              , txPriority = fromIntegral pri
              }

entryPair
  :: TaggedAcnt
  -> TaggedAcnt
  -> CurrencyRId
  -> T.Text
  -> v0
  -> v1
  -> EntrySet v0 v1 v2 v3
entryPair (TaggedAcnt fa fts) (TaggedAcnt ta tts) curid com totval val1 =
  EntrySet
    { esCurrency = curid
    , esTotalValue = totval
    , esFrom = halfEntry (AcntID fa) (TagID <$> fts) val1
    , esTo = halfEntry (AcntID ta) (TagID <$> tts) ()
    }
  where
    halfEntry :: AcntID -> [TagID] -> v -> HalfEntrySet v v0
    halfEntry a ts v =
      HalfEntrySet
        { hesPrimary = Entry {eAcnt = a, eValue = v, eComment = com, eTags = ts}
        , hesOther = []
        }

withDates
  :: (MonadFinance m, MonadInsertError m)
  => DaySpan
  -> DatePat
  -> (Day -> m a)
  -> m [a]
withDates bounds dp f = do
  days <- liftExcept $ expandDatePat bounds dp
  combineErrors $ fmap f days

sumM :: (Monad m, Num s) => (a -> m (s, b)) -> [a] -> m (s, [b])
sumM f = mapAccumM (\s -> fmap (first (+ s)) . f) 0

mapAccumM :: (Monad m) => (s -> a -> m (s, b)) -> s -> [a] -> m (s, [b])
mapAccumM f s = foldM (\(s', ys) -> fmap (second (: ys)) . f s') (s, [])