pwncash/lib/Internal/Utils.hs

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{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
module Internal.Utils where
import Data.Bifunctor
import qualified Data.Map as M
import Data.Ratio
import qualified Data.Text as T
import Data.Time
import GHC.Real
import Numeric.Natural
import Internal.Types
import Text.Read
import Text.Regex.TDFA
descMatches :: MatchDesc -> T.Text -> Bool
descMatches (Re re) = (=~ re)
descMatches (Exact t) = (== t)
-- when bifunctor fails...
thrice :: (a -> d) -> (b -> e) -> (c -> f) -> (a, b, c) -> (d, e, f)
thrice f1 f2 f3 (x, y, z) = (f1 x, f2 y, f3 z)
toGregorianI :: (Integral a, Integral b, Integral c) => Day -> (a, b, c)
toGregorianI = thrice fromIntegral fromIntegral fromIntegral . toGregorian
fromGregorianI :: Natural -> Natural -> Natural -> Day
fromGregorianI y m d =
fromGregorian (fromIntegral y) (fromIntegral m) (fromIntegral d)
toModifiedJulianDayI :: Day -> Natural
toModifiedJulianDayI = fromIntegral . toModifiedJulianDay
compareDate :: MatchDate -> Day -> Ordering
compareDate (On md) x = case md of
Y y' -> compare sY y'
YM (GregorianM y' m') -> compare (sY, m) (y', m')
YMD (Gregorian y' m' d') -> compare (sY, m, d) (y', m', d')
where
-- TODO make this actually give a real gregorian type, which will clean
-- this up
(y, m, d) = toGregorianI x
sY = y2k y
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compareDate (In md o) x = case md of
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Y y' -> compareRange y' o sY
YM (GregorianM y' m') -> let s = toMonth y' m' in compareRange s o $ toMonth sY m
YMD (Gregorian y' m' d') ->
let s = toModifiedJulianDayI $ fromGregorianI (y' + 2000) m' d'
in compareRange s o $ toModifiedJulianDayI x
where
(y, m, _) = toGregorianI x :: (Natural, Natural, Natural)
sY = y2k y
compareRange start offset z
| z < start = LT
| otherwise = if (start + offset) < z then GT else EQ
toMonth year month = (year * 12) + month
dateMatches :: MatchDate -> Day -> Bool
dateMatches md = (EQ ==) . compareDate md
-- this apparently can't be eta reduced without triggering an underflow
y2k :: Natural -> Natural
y2k x = x - 2000
valMatches :: MatchVal -> Rational -> Bool
valMatches MatchVal {..} x = checkMaybe (s ==) mvSign
&& checkMaybe (n ==) mvNum
&& checkMaybe ((d * p ==) . fromIntegral) mvDen
where
(n, d) = properFraction $ abs x
p = 10 ^ mvPrec
s = signum x >= 0
evalSplit :: TxRecord -> ExpSplit -> RawSplit
evalSplit r s@Split { sAcnt = a, sValue = v, sCurrency = c } =
s { sAcnt = evalAcnt r a
, sValue = evalExp r =<< v
, sCurrency = evalCurrency r c }
evalAcnt :: TxRecord -> SplitAcnt -> T.Text
evalAcnt TxRecord { trOther = o } s = case s of
ConstT p -> p
LookupT f -> read $ T.unpack $ lookupField f o
MapT (Field f m) -> let k = lookupField f o in lookupErr "account key" k m
Map2T (Field (f1, f2) m) -> let k1 = lookupField f1 o
k2 = lookupField f2 o
in lookupErr "account key" (k1, k2) m
evalCurrency :: TxRecord -> SplitCur -> T.Text
evalCurrency TxRecord { trOther = o } s = case s of
ConstT p -> p
LookupT f -> lookupField f o
MapT (Field f m) -> let k = lookupField f o in lookupErr "currency key" k m
Map2T (Field (f1, f2) m) -> let k1 = lookupField f1 o
k2 = lookupField f2 o
in lookupErr "currency key" (k1, k2) m
errorT :: T.Text -> a
errorT = error . T.unpack
lookupField :: (Ord k, Show k) => k -> M.Map k v -> v
lookupField = lookupErr "field"
lookupErr :: (Ord k, Show k) => T.Text -> k -> M.Map k v -> v
lookupErr what k m = case M.lookup k m of
Just x -> x
_ -> errorT $ T.concat [what, " does not exist: ", T.pack $ show k]
matches :: Match -> TxRecord -> Maybe (Maybe RawTx)
matches Match {..} r@TxRecord {..}
| allPass = Just $ fmap eval mTx
| otherwise = Nothing
where
allPass = checkMaybe (`dateMatches` trDate) mDate
&& valMatches mVal trAmount
&& checkMaybe (`descMatches` trDesc) mDesc
&& all (fieldMatches trOther) mOther
eval (ToTx cur a ss) = toTx cur a ss r
-- TODO these error messages are useless
fieldMatches :: M.Map T.Text T.Text -> MatchOther -> Bool
fieldMatches dict m = case m of
Val (Field n mv) -> case readRational =<< M.lookup n dict of
(Just v) -> valMatches mv v
_ -> error "you dummy"
Desc (Field n md) -> case M.lookup n dict of
(Just d) -> descMatches md d
_ -> error "you dummy"
checkMaybe :: (a -> Bool) -> Maybe a -> Bool
checkMaybe = maybe True
toTx :: SplitCur -> SplitAcnt -> [ExpSplit] -> TxRecord -> RawTx
toTx sc sa toSplits r@TxRecord {..} =
Tx { txTags = []
, txDate = trDate
, txDescr = trDesc
, txSplits = fromSplit:fmap (evalSplit r) toSplits
}
where
fromSplit = Split { sAcnt = evalAcnt r sa
, sCurrency = evalCurrency r sc
, sValue = Just trAmount
, sComment = ""
}
parseRational :: MonadFail m => T.Text -> T.Text -> m Rational
parseRational pat s = case ms of
[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
(_, _, _, ms) = (s =~ pat) :: (T.Text, T.Text, T.Text, [T.Text])
readT what t = case readMaybe $ T.unpack t of
Just d -> return $ fromInteger d
_ -> msg $ T.unwords ["could not parse", what, t]
msg m = fail $ T.unpack $ T.concat [ m
, "; 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)
readRational :: MonadFail m => T.Text -> m Rational
readRational s = case T.splitOn "." s of
[x] -> return $ fromInteger $ readT x
[x, y] -> let x' = readT x
y' = readT y
p = 10 ^ T.length y
k = if x' >= 0 then 1 else -1 in
if y' > p
then fail "not enough precision to parse"
else return $ fromInteger x' + k * y' % p
_ -> fail $ T.unpack $ T.append "malformed decimal: " s
where
readT = read . T.unpack
-- TODO smells like a lens
mapTxSplits :: (a -> b) -> Tx a -> Tx b
mapTxSplits f t@Tx { txSplits = ss } = t { txSplits = fmap f ss }
boundsFromGregorian :: (Gregorian, Gregorian) -> Bounds
boundsFromGregorian = bimap fromGregorian' fromGregorian'
fromGregorian' :: Gregorian -> Day
fromGregorian' (Gregorian y m d) = fromGregorianI y m d
inBounds :: Bounds -> Day -> Bool
inBounds (d0, d1) x = d0 <= x && x <= d1
inMaybeBounds :: MaybeBounds -> Day -> Bool
inMaybeBounds (d0, d1) x = maybe True (x >=) d0 && maybe True (x <=) d1
intervalMaybeBounds :: Interval -> MaybeBounds
intervalMaybeBounds Interval { intStart = s, intEnd = e } =
(fromGregorian' <$> s, fromGregorian' <$> e)
resolveBounds :: MaybeBounds -> IO Bounds
resolveBounds (s, e) = do
s' <- maybe getDay return s
e' <- maybe (addGregorianYearsClip 50 <$> getDay) return e
return (s', e')
where
getDay = utctDay <$> getCurrentTime
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' = toInteger $ div n d
d' = toInteger $ (\(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
uncurry3 :: (a -> b -> c -> d) -> (a, b, c) -> d
uncurry3 f (a, b, c) = f a b c
lpad :: a -> Int -> [a] -> [a]
lpad c n s = replicate (n - length s) c ++ s
rpad :: a -> Int -> [a] -> [a]
rpad c n s = s ++ replicate (n - length s) c
evalExp :: TxRecord -> SplitNum -> Maybe Rational
evalExp r s = case s of
(LookupN t) -> readRational =<< M.lookup t (trOther r)
(ConstN c) -> Just $ dec2Rat c
AmountN -> Just $ trAmount r
dec2Rat :: Decimal -> Rational
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dec2Rat D {..} =
k * (fromIntegral whole + (fromIntegral decimal % (10 ^ precision)))
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where
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k = if sign then 1 else -1
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acntPath2Text :: AcntPath -> T.Text
acntPath2Text (AcntPath t cs) = T.intercalate "/" (atName t : cs)