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3 changed files with 101 additions and 143 deletions

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@ -516,7 +516,12 @@ readUpdates hashes = do
splitFrom
:: [(EntryRId, EntryR)]
-> InsertExcept (UEBlank, [UE_RO], [UEBalance], Vector (Maybe UEBalance))
-> InsertExcept
( UpdateEntry EntryRId ()
, [UpdateEntry () Rational]
, [UpdateEntry EntryRId Rational]
, Vector (Maybe (UpdateEntry EntryRId Rational))
)
splitFrom from = do
-- ASSUME entries are sorted by index
(primary, rest) <- case from of
@ -528,14 +533,14 @@ splitFrom from = do
return (primary, ro, toBal, idxVec)
splitTo
:: Vector (Maybe UEBalance)
:: Vector (Maybe (UpdateEntry EntryRId Rational))
-> [(EntryRId, EntryR)]
-> InsertExcept
( UEBlank
, [UE_RO]
, [UEBalance]
, [UELink]
, [(UEBalance, [UELink])]
( UpdateEntry EntryRId ()
, [UpdateEntry () Rational]
, [UpdateEntry EntryRId Rational]
, [UpdateEntry EntryRId ()]
, [(UpdateEntry EntryRId Rational, [UpdateEntry EntryRId Rational])]
)
splitTo froms tos = do
-- How to split the credit side of the database transaction in 1024 easy
@ -555,18 +560,18 @@ splitTo froms tos = do
let (ro, toBal) = partitionEithers $ fmap splitDeferredValue unlinked
-- 3. Split paired entries by link == 0 (which are special) or link > 0
let (paired0, pairedN) = second (groupKey id) $ L.partition ((== 0) . fst) linked
let paired0Res = mapErrors (makeLinkUnk . snd) paired0
let (paired0, pairedN) =
bimap (fmap (uncurry makeUnkUE . snd)) (groupKey id) $
L.partition ((== 0) . fst) linked
-- 4. Group linked entries (which now have links > 0) according to the debit
-- entry to which they are linked. If the debit entry cannot be found or
-- if the linked entry has no scale, blow up in user's face. If the
-- debit entry is read-only (signified by Nothing in the 'from' array)
-- then consider the linked entry as another credit read-only entry
let pairedRes = partitionEithers <$> mapErrors splitPaired pairedN
(pairedUnk, pairedRO) <- partitionEithers <$> mapErrors splitPaired pairedN
combineError paired0Res pairedRes $ \paired0' (pairedUnk, pairedRO) ->
(primary, ro ++ concat pairedRO, toBal, paired0', pairedUnk)
return (primary, ro ++ concat pairedRO, toBal, paired0, pairedUnk)
where
splitLinked t@(_, e) = maybe (Left t) (Right . (,t)) $ entryRDeferred_link e
splitPaired (lnk, ts) = case froms V.!? (lnk - 1) of
@ -576,19 +581,20 @@ splitTo froms tos = do
makeLinkUnk (k, e) =
maybe
(throwError $ InsertException undefined)
(return . makeUE k e . LinkScale)
(return . makeUE k e)
$ entryRDeferred_value e
splitDeferredValue :: (EntryRId, EntryR) -> Either UE_RO UEBalance
splitDeferredValue
:: (EntryRId, EntryR)
-> Either (UpdateEntry () Rational) (UpdateEntry EntryRId Rational)
splitDeferredValue (k, e) =
maybe (Left $ makeRoUE e) (Right . fmap BalanceTarget . makeUE k e) $
entryRDeferred_value e
maybe (Left $ makeRoUE e) (Right . makeUE k e) $ entryRDeferred_value e
makeUE :: i -> EntryR -> v -> UpdateEntry i v
makeUE k e v = UpdateEntry k (entryRAccount e) v (entryRIndex e)
makeRoUE :: EntryR -> UpdateEntry () EntryValue
makeRoUE e = makeUE () e $ EntryValue (entryRValue e)
makeRoUE :: EntryR -> UpdateEntry () Rational
makeRoUE e = makeUE () e (entryRValue e)
makeUnkUE :: EntryRId -> EntryR -> UpdateEntry EntryRId ()
makeUnkUE k e = makeUE k e ()

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@ -9,7 +9,6 @@ where
import Control.Monad.Except
import Data.Csv
import Data.Foldable
import Database.Persist ((=.))
import Database.Persist.Monad hiding (get)
import Internal.Database
import Internal.Types.Main
@ -79,11 +78,9 @@ insertHistory
-> m ()
insertHistory hs = do
(toUpdate, toInsert) <- balanceTxs hs
mapM_ updateTx toUpdate
forM_ (groupKey commitRHash $ (\x -> (txCommit x, x)) <$> toInsert) $
\(c, ts) -> do
ck <- insert $ c
mapM_ (insertTx ck) ts
forM_ (groupWith txCommit toInsert) $ \(c, ts) -> do
ck <- insert c
mapM_ (insertTx ck) ts
--------------------------------------------------------------------------------
-- low-level transaction stuff
@ -131,9 +128,6 @@ insertTx c Tx {txDate = d, txDescr = e, txEntries = ss} = do
k <- insert $ TransactionR c d e anyDeferred
mapM_ (insertEntry k) ss
updateTx :: MonadSqlQuery m => UEBalanced -> m ()
updateTx UpdateEntry {ueID, ueValue} = update ueID [EntryRValue =. (unEntryValue ueValue)]
--------------------------------------------------------------------------------
-- Statements
@ -337,17 +331,17 @@ matchNonDates ms = go ([], [], initZipper ms)
balanceTxs
:: (MonadInsertError m, MonadFinance m)
=> [EntryBin]
-> m ([UEBalanced], [KeyTx CommitR])
-> m ([UpdateEntry EntryRId Rational], [KeyTx CommitR])
balanceTxs es =
(first concat . partitionEithers . catMaybes)
<$> evalStateT (mapErrors go $ L.sortOn binDate es) M.empty
<$> evalStateT (mapM go $ L.sortOn binDate es) M.empty
where
go (ToUpdate utx) = fmap (Just . Left) $ liftInnerS $ rebalanceEntrySet utx
go (ToUpdate utx) = (Just . Left) <$> rebalanceEntrySet utx
go (ToRead ReadEntry {reCurrency, reAcnt, reValue}) = do
modify $ mapAdd_ (reAcnt, reCurrency) reValue
return Nothing
go (ToInsert (t@Tx {txEntries, txDate})) =
(\es' -> Just $ Right $ t {txEntries = concat es'})
(\es -> Just $ Right $ t {txEntries = concat es})
<$> mapM (balanceEntrySet txDate) txEntries
binDate :: EntryBin -> Day
@ -358,11 +352,11 @@ binDate (ToInsert (Tx {txDate})) = txDate
type EntryBals = M.Map (AccountRId, CurrencyRId) Rational
data UpdateEntryType a
= UET_ReadOnly UE_RO
| UET_Balance UEBalance
| UET_Linked a
= UEReadOnly (UpdateEntry () Rational)
| UEBlank (UpdateEntry EntryRId Rational)
| UEPaired (UpdateEntry EntryRId Rational, UpdateEntry EntryRId a)
rebalanceEntrySet :: UpdateEntrySet -> State EntryBals [UEBalanced]
rebalanceEntrySet :: UpdateEntrySet -> State EntryBals [UpdateEntry EntryRId Rational]
rebalanceEntrySet
UpdateEntrySet
{ utFrom0
@ -373,75 +367,53 @@ rebalanceEntrySet
, utFromRO
, utToRO
, utCurrency
, utToUnkLink0
, utTotalValue
} =
do
let fs =
L.sortOn idx $
(UET_ReadOnly <$> utFromRO)
++ (UET_Balance <$> utFromUnk)
++ (UET_Linked <$> utPairs)
L.sortOn index $
(UEReadOnly <$> utFromRO)
++ (UEBlank <$> utFromUnk)
++ (UEPaired <$> utPairs)
fs' <- mapM goFrom fs
let f0val = utTotalValue - (sum $ fmap value fs')
let f0 = utFrom0 {ueValue = EntryValue f0val}
let (tpairs, fs'') = partitionEithers $ concatMap flatten fs'
let tsLink0 = fmap (\e -> e {ueValue = EntryValue $ -f0val * (unLinkScale $ ueValue e)}) utToUnkLink0
let ts =
L.sortOn idx2 $
(UET_Linked <$> (tpairs ++ tsLink0))
++ (UET_Balance <$> utToUnk)
++ (UET_ReadOnly <$> utToRO)
let f0 = utFrom0 {ueValue = utTotalValue - (sum $ fmap value fs')}
let (fs'', tpairs) = partitionEithers $ concatMap flatten fs'
let ts = (Right <$> tpairs) ++ (Right <$> utToUnk) ++ (Left <$> utToRO)
(tsRO, tsUnk) <- partitionEithers <$> mapM goTo ts
let t0val =
(EntryValue utTotalValue)
- (sum $ (fmap ueValue tsRO) ++ (fmap ueValue tsUnk))
let t0 = utTo0 {ueValue = t0val}
return $ (f0 : (fmap (fmap (EntryValue . unBalanceTarget)) fs'')) ++ (t0 : tsUnk)
let t0 = utTo0 {ueValue = utTotalValue - (sum $ (fmap ueValue tsRO) ++ (fmap ueValue tsUnk))}
return $ f0 : fs'' ++ t0 : tsUnk
where
project f _ _ (UET_ReadOnly e) = f e
project _ f _ (UET_Balance e) = f e
project _ _ f (UET_Linked p) = f p
idx = project ueIndex ueIndex (ueIndex . fst)
idx2 = project ueIndex ueIndex ueIndex
value =
project
(unEntryValue . ueValue)
(unBalanceTarget . ueValue)
(unBalanceTarget . ueValue . fst)
flatten = project (const []) ((: []) . Right) (\(a, bs) -> (Right a) : (Left <$> bs))
project f _ _ (UEReadOnly e) = f e
project _ f _ (UEBlank e) = f e
project _ _ f (UEPaired p) = f p
index = project ueIndex ueIndex (ueIndex . fst)
value = project ueValue ueValue (ueValue . fst)
flatten = project (const []) ((: []) . Right) (\(a, b) -> [Right a, Left b])
-- TODO the following is wetter than the average groupie
goFrom (UET_ReadOnly e) = do
modify $ mapAdd_ (ueAcnt e, utCurrency) (unEntryValue $ ueValue e)
return $ UET_ReadOnly e
goFrom (UET_Balance e) = do
goFrom (UEReadOnly e) = do
modify $ mapAdd_ (ueAcnt e, utCurrency) (ueValue e)
return $ UEReadOnly e
goFrom (UEBlank e) = do
let key = (ueAcnt e, utCurrency)
curBal <- gets (M.findWithDefault 0 key)
let newVal = unBalanceTarget (ueValue e) - curBal
let newVal = ueValue e - curBal
modify $ mapAdd_ key newVal
return $ UET_Balance $ e {ueValue = BalanceTarget newVal}
goFrom (UET_Linked (e0, es)) = do
return $ UEBlank $ e {ueValue = newVal}
goFrom (UEPaired (e0, e1)) = do
let key = (ueAcnt e0, utCurrency)
curBal <- gets (M.findWithDefault 0 key)
let newVal = unBalanceTarget (ueValue e0) - curBal
let newVal = ueValue e0 - curBal
modify $ mapAdd_ key newVal
return $
UET_Linked $
( e0 {ueValue = BalanceTarget newVal}
, fmap (\e -> e {ueValue = EntryValue $ (-newVal) * unLinkScale (ueValue e)}) es
)
goTo (UET_ReadOnly e) = do
modify $ mapAdd_ (ueAcnt e, utCurrency) (unEntryValue $ ueValue e)
return $ UEPaired $ (e0 {ueValue = newVal}, e1 {ueValue = -newVal})
goTo (Left e) = do
modify $ mapAdd_ (ueAcnt e, utCurrency) (ueValue e)
return $ Left e
goTo (UET_Linked e) = do
modify $ mapAdd_ (ueAcnt e, utCurrency) (unEntryValue $ ueValue e)
return $ Right e
goTo (UET_Balance e) = do
goTo (Right e) = do
let key = (ueAcnt e, utCurrency)
curBal <- gets (M.findWithDefault 0 key)
let newVal = unBalanceTarget (ueValue e) - curBal
let newVal = ueValue e - curBal
modify $ mapAdd_ key newVal
return $ Right $ e {ueValue = EntryValue newVal}
return $ Right $ e {ueValue = newVal}
balanceEntrySet
:: (MonadInsertError m, MonadFinance m)
@ -463,8 +435,8 @@ balanceEntrySet
-- resolve accounts and balance debit entries since we need an array
-- of debit entries for linked credit entries later
let balFromEntry = balanceEntry (\a -> liftInnerS . balanceDeferred curID a) curID
fs' <- doEntries balFromEntry curID esTotalValue f0 fs (NE.iterate (+ (-1)) (-1))
let balFromEntry = balanceEntry (balanceDeferred curID) curID
fs' <- doEntries balFromEntry curID esTotalValue f0 fs (NE.iterate (-1) (-1))
let fv = V.fromList $ fmap (eValue . feEntry) fs'
-- finally resolve credit entries
@ -474,15 +446,15 @@ balanceEntrySet
doEntries
:: (MonadInsertError m, MonadFinance m)
=> (Int -> Entry AcntID v TagID -> StateT EntryBals m (FullEntry AccountRId CurrencyRId TagRId))
=> (Int -> Entry AcntID v t -> State EntryBals (FullEntry AccountRId CurrencyRId t))
-> CurrencyRId
-> Rational
-> Entry AcntID () TagID
-> [Entry AcntID v TagID]
-> Entry AcntID () t
-> [Entry AcntID v t]
-> NonEmpty Int
-> StateT EntryBals m [FullEntry AccountRId CurrencyRId TagRId]
-> StateT EntryBals m [FullEntry AccountRId CurrencyRId t]
doEntries f curID tot e es (i0 :| iN) = do
es' <- mapM (uncurry f) $ zip iN es
es' <- liftInnerS $ mapM (uncurry f) $ zip iN es
let val0 = tot - entrySum es'
e' <- balanceEntry (\_ _ -> return (val0, Nothing)) curID i0 e
return $ e' : es'
@ -493,20 +465,19 @@ liftInnerS :: Monad m => StateT e Identity a -> StateT e m a
liftInnerS = mapStateT (return . runIdentity)
balanceLinked
:: MonadInsertError m
=> Vector Rational
:: Vector Rational
-> CurrencyRId
-> Natural
-> AccountRId
-> LinkDeferred Rational
-> StateT EntryBals m (Rational, Maybe DBDeferred)
-> StateT EntryBals Identity (Rational, Maybe DBDeferred)
balanceLinked from curID precision acntID lg = case lg of
(LinkIndex LinkedNumGetter {lngIndex, lngScale}) -> do
(LinkIndex g@LinkedNumGetter {lngIndex, lngScale}) -> do
let res = fmap (go lngScale) $ from V.!? fromIntegral lngIndex
case res of
Just v -> return $ (v, Just $ EntryLinked lngIndex $ toRational lngScale)
Nothing -> throwError undefined
(LinkDeferred d) -> liftInnerS $ balanceDeferred curID acntID d
(LinkDeferred d) -> balanceDeferred curID acntID d
where
go s = roundPrecision precision . (* s) . fromRational
@ -524,22 +495,22 @@ balanceEntry
=> (AccountRId -> v -> StateT EntryBals m (Rational, Maybe DBDeferred))
-> CurrencyRId
-> Int
-> Entry AcntID v TagID
-> StateT EntryBals m (FullEntry AccountRId CurrencyRId TagRId)
balanceEntry f curID idx e@Entry {eValue, eAcnt, eTags} = do
let acntRes = lookupAccount eAcnt
let tagRes = mapErrors lookupTag eTags
combineErrorM acntRes tagRes $ \(acntID, sign, _) tags -> do
let s = fromIntegral $ sign2Int sign
(newVal, deferred) <- f acntID eValue
modify (mapAdd_ (acntID, curID) newVal)
return $
FullEntry
{ feEntry = e {eValue = s * newVal, eAcnt = acntID, eTags = tags}
, feCurrency = curID
, feDeferred = deferred
, feIndex = idx
}
-> Entry AcntID v t
-> StateT EntryBals m (FullEntry AccountRId CurrencyRId t)
balanceEntry f curID index e@Entry {eValue, eAcnt} = do
(acntID, sign, _) <- lookupAccount eAcnt
let s = fromIntegral $ sign2Int sign
(newVal, deferred) <- f acntID eValue
modify (mapAdd_ (acntID, curID) newVal)
return $
FullEntry
{ feEntry = e {eValue = s * newVal, eAcnt = acntID}
, feCurrency = curID
, feDeferred = deferred
, feIndex = index
}
where
key = (eAcnt, curID)
findBalance :: AccountRId -> CurrencyRId -> Bool -> Rational -> State EntryBals Rational
findBalance acnt cur toBal v = do

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@ -77,36 +77,17 @@ data UpdateEntry i v = UpdateEntry
, ueIndex :: !Int -- TODO this isn't needed for primary entries
}
deriving instance Functor (UpdateEntry i)
newtype LinkScale = LinkScale {unLinkScale :: Rational}
deriving newtype (Num)
newtype BalanceTarget = BalanceTarget {unBalanceTarget :: Rational}
deriving newtype (Num)
newtype EntryValue = EntryValue {unEntryValue :: Rational}
deriving newtype (Num)
type UEBalance = UpdateEntry EntryRId BalanceTarget
type UELink = UpdateEntry EntryRId LinkScale
type UEBlank = UpdateEntry EntryRId ()
type UE_RO = UpdateEntry () EntryValue
type UEBalanced = UpdateEntry EntryRId EntryValue
data UpdateEntrySet = UpdateEntrySet
{ utFrom0 :: !UEBlank
, utTo0 :: !UEBlank
, utPairs :: ![(UEBalance, [UELink])]
, utFromUnk :: ![UEBalance]
, utToUnk :: ![UEBalance]
, utToUnkLink0 :: ![UELink]
, utFromRO :: ![UE_RO]
, utToRO :: ![UE_RO]
{ utFrom0 :: !(UpdateEntry EntryRId ())
, utTo0 :: !(UpdateEntry EntryRId ())
, -- for these next three, the Rational number is the balance target (not the
-- value of the account)
utPairs :: ![(UpdateEntry EntryRId Rational, [UpdateEntry EntryRId Rational])]
, utFromUnk :: ![UpdateEntry EntryRId Rational]
, utToUnk :: ![UpdateEntry EntryRId Rational]
, utToUnkLink0 :: ![UpdateEntry EntryRId ()]
, utFromRO :: ![UpdateEntry () Rational]
, utToRO :: ![UpdateEntry () Rational]
, utCurrency :: !CurrencyRId
, utDate :: !Day
, utTotalValue :: !Rational