{-# LANGUAGE StandaloneDeriving #-} {-| An 'Amount' is some quantity of money, shares, or anything else. A simple amount is a 'Commodity', quantity pair: @ $1 £-50 EUR 3.44 GOOG 500 1.5h 90apples 0 @ A 'MixedAmount' is zero or more simple amounts: @ $50, EUR 3, AAPL 500 16h, $13.55, oranges 6 @ Not implemented: Commodities may be convertible or not. A mixed amount containing only convertible commodities can be converted to a simple amount. Arithmetic examples: @ $1 - $5 = $-4 $1 + EUR 0.76 = $2 EUR0.76 + $1 = EUR 1.52 EUR0.76 - $1 = 0 ($5, 2h) + $1 = ($6, 2h) ($50, EUR 3, AAPL 500) + ($13.55, oranges 6) = $67.51, AAPL 500, oranges 6 ($50, EUR 3) * $-1 = $-53.96 ($50, AAPL 500) * $-1 = error @ -} module Ledger.Amount where import Ledger.Utils import Ledger.Types import Ledger.Commodity instance Show Amount where show = showAmount instance Show MixedAmount where show = showMixedAmount deriving instance Show HistoricalPrice instance Num Amount where abs (Amount c q p) = Amount c (abs q) p signum (Amount c q p) = Amount c (signum q) p fromInteger i = Amount (comm "") (fromInteger i) Nothing (+) = amountop (+) (-) = amountop (-) (*) = amountop (*) instance Ord Amount where compare (Amount ac aq ap) (Amount bc bq bp) = compare (ac,aq,ap) (bc,bq,bp) instance Num MixedAmount where fromInteger i = Mixed [Amount (comm "") (fromInteger i) Nothing] negate (Mixed as) = Mixed $ map negateAmountPreservingPrice as (+) (Mixed as) (Mixed bs) = normaliseMixedAmount $ Mixed $ as ++ bs (*) = error "programming error, mixed amounts do not support multiplication" abs = error "programming error, mixed amounts do not support abs" signum = error "programming error, mixed amounts do not support signum" instance Ord MixedAmount where compare (Mixed as) (Mixed bs) = compare as bs negateAmountPreservingPrice a = (-a){price=price a} -- | Apply a binary arithmetic operator to two amounts, converting to the -- second one's commodity (and display precision), discarding any price -- information. (Using the second commodity is best since sum and other -- folds start with a no-commodity amount.) amountop :: (Double -> Double -> Double) -> Amount -> Amount -> Amount amountop op a@(Amount _ _ _) (Amount bc bq _) = Amount bc (quantity (convertAmountTo bc a) `op` bq) Nothing -- | Convert an amount to the specified commodity using the appropriate -- exchange rate (which is currently always 1). convertAmountTo :: Commodity -> Amount -> Amount convertAmountTo c2 (Amount c1 q _) = Amount c2 (q * conversionRate c1 c2) Nothing -- | Convert an amount to the commodity of its saved price, if any. costOfAmount :: Amount -> Amount costOfAmount a@(Amount _ _ Nothing) = a costOfAmount (Amount _ q (Just price)) | isZeroMixedAmount price = nullamt | otherwise = Amount pc (pq*q) Nothing where (Amount pc pq _) = head $ amounts price -- | Get the string representation of an amount, based on its commodity's -- display settings. showAmount :: Amount -> String showAmount (Amount (Commodity {symbol="AUTO"}) _ _) = "" -- can appear in an error message showAmount a@(Amount (Commodity {symbol=sym,side=side,spaced=spaced}) _ pri) = case side of L -> printf "%s%s%s%s" sym space quantity price R -> printf "%s%s%s%s" quantity space sym price where space = if spaced then " " else "" quantity = showAmount' a price = case pri of (Just pamt) -> " @ " ++ showMixedAmount pamt Nothing -> "" -- | Get the string representation of an amount, without any \@ price. showAmountWithoutPrice :: Amount -> String showAmountWithoutPrice a = showAmount a{price=Nothing} -- | Get the string representation (of the number part of) of an amount showAmount' :: Amount -> String showAmount' (Amount (Commodity {comma=comma,precision=p}) q _) = quantity where quantity = commad $ printf ("%."++show p++"f") q commad = if comma then punctuatethousands else id -- | Add thousands-separating commas to a decimal number string punctuatethousands :: String -> String punctuatethousands s = sign ++ addcommas int ++ frac where (sign,num) = break isDigit s (int,frac) = break (=='.') num addcommas = reverse . concat . intersperse "," . triples . reverse triples [] = [] triples l = take 3 l : triples (drop 3 l) -- | Does this amount appear to be zero when displayed with its given precision ? isZeroAmount :: Amount -> Bool isZeroAmount = null . filter (`elem` "123456789") . showAmountWithoutPrice -- | Is this amount "really" zero, regardless of the display precision ? -- Since we are using floating point, for now just test to some high precision. isReallyZeroAmount :: Amount -> Bool isReallyZeroAmount = null . filter (`elem` "123456789") . printf "%.10f" . quantity -- | Access a mixed amount's components. amounts :: MixedAmount -> [Amount] amounts (Mixed as) = as -- | Does this mixed amount appear to be zero - empty, or -- containing only simple amounts which appear to be zero ? isZeroMixedAmount :: MixedAmount -> Bool isZeroMixedAmount = all isZeroAmount . amounts . normaliseMixedAmount -- | Is this mixed amount "really" zero ? See isReallyZeroAmount. isReallyZeroMixedAmount :: MixedAmount -> Bool isReallyZeroMixedAmount = all isReallyZeroAmount . amounts . normaliseMixedAmount -- | MixedAmount derives Eq in Types.hs, but that doesn't know that we -- want $0 = EUR0 = 0. Yet we don't want to drag all this code in there. -- When zero equality is important, use this, for now; should be used -- everywhere. mixedAmountEquals :: MixedAmount -> MixedAmount -> Bool mixedAmountEquals a b = amounts a' == amounts b' || (isZeroMixedAmount a' && isZeroMixedAmount b') where a' = normaliseMixedAmount a b' = normaliseMixedAmount b -- | Get the string representation of a mixed amount, showing each of -- its component amounts. NB a mixed amount can have an empty amounts -- list in which case it shows as \"\". showMixedAmount :: MixedAmount -> String showMixedAmount m = concat $ intersperse "\n" $ map showfixedwidth as where (Mixed as) = normaliseMixedAmount m width = maximum $ map (length . show) as showfixedwidth = printf (printf "%%%ds" width) . show -- | Get the string representation of a mixed amount, but without -- any \@ prices. showMixedAmountWithoutPrice :: MixedAmount -> String showMixedAmountWithoutPrice m = concat $ intersperse "\n" $ map showfixedwidth as where (Mixed as) = normaliseMixedAmountIgnoringPrice m width = maximum $ map (length . show) as showfixedwidth = printf (printf "%%%ds" width) . showAmountWithoutPrice -- | Get the string representation of a mixed amount, and if it -- appears to be all zero just show a bare 0, ledger-style. showMixedAmountOrZero :: MixedAmount -> String showMixedAmountOrZero a | isZeroMixedAmount a = "0" | otherwise = showMixedAmount a -- | Get the string representation of a mixed amount, or a bare 0, -- without any \@ prices. showMixedAmountOrZeroWithoutPrice :: MixedAmount -> String showMixedAmountOrZeroWithoutPrice a | isZeroMixedAmount a = "0" | otherwise = showMixedAmountWithoutPrice a -- | Simplify a mixed amount by combining any component amounts which have -- the same commodity and the same price. Also removes zero amounts, -- or adds a single zero amount if there are no amounts at all. normaliseMixedAmount :: MixedAmount -> MixedAmount normaliseMixedAmount (Mixed as) = Mixed as'' where as'' = map sumSamePricedAmountsPreservingPrice $ group $ sort as' sort = sortBy cmpsymbolandprice cmpsymbolandprice a1 a2 = compare (sym a1,price a1) (sym a2,price a2) group = groupBy samesymbolandprice samesymbolandprice a1 a2 = (sym a1 == sym a2) && (price a1 == price a2) sym = symbol . commodity as' | null nonzeros = [head $ zeros ++ [nullamt]] | otherwise = nonzeros (zeros,nonzeros) = partition isReallyZeroAmount as sumSamePricedAmountsPreservingPrice [] = nullamt sumSamePricedAmountsPreservingPrice as = (sum as){price=price $ head as} -- | Simplify a mixed amount by combining any component amounts which have -- the same commodity, ignoring and discarding their unit prices if any. -- Also removes zero amounts, or adds a single zero amount if there are no -- amounts at all. normaliseMixedAmountIgnoringPrice :: MixedAmount -> MixedAmount normaliseMixedAmountIgnoringPrice (Mixed as) = Mixed as'' where as'' = map sumAmountsDiscardingPrice $ group $ sort as' group = groupBy samesymbol where samesymbol a1 a2 = sym a1 == sym a2 sort = sortBy (comparing sym) sym = symbol . commodity as' | null nonzeros = [head $ zeros ++ [nullamt]] | otherwise = nonzeros where (zeros,nonzeros) = partition isZeroAmount as sumAmountsDiscardingPrice [] = nullamt sumAmountsDiscardingPrice as = (sum as){price=Nothing} -- | Convert a mixed amount's component amounts to the commodity of their -- saved price, if any. costOfMixedAmount :: MixedAmount -> MixedAmount costOfMixedAmount (Mixed as) = Mixed $ map costOfAmount as -- | The empty simple amount. nullamt :: Amount nullamt = Amount unknown 0 Nothing -- | The empty mixed amount. nullmixedamt :: MixedAmount nullmixedamt = Mixed [] -- | A temporary value for parsed transactions which had no amount specified. missingamt :: MixedAmount missingamt = Mixed [Amount Commodity {symbol="AUTO",side=L,spaced=False,comma=False,precision=0} 0 Nothing]