{-| A 'Journal' is a parsed ledger file, containing 'Transaction's. It can be filtered and massaged in various ways, then \"crunched\" to form a 'Ledger'. -} module Ledger.Journal where import qualified Data.Map as Map import Data.Map (findWithDefault, (!)) import System.Time (ClockTime(TOD)) import Ledger.Utils import Ledger.Types import Ledger.AccountName import Ledger.Amount import Ledger.Transaction (ledgerTransactionWithDate) import Ledger.Posting import Ledger.TimeLog instance Show Journal where show j = printf "Journal with %d transactions, %d accounts: %s" (length (jtxns j) + length (jmodifiertxns j) + length (jperiodictxns j)) (length accounts) (show accounts) -- ++ (show $ journalTransactions l) where accounts = flatten $ journalAccountNameTree j nulljournal :: Journal nulljournal = Journal { jmodifiertxns = [] , jperiodictxns = [] , jtxns = [] , open_timelog_entries = [] , historical_prices = [] , final_comment_lines = [] , filepath = "" , filereadtime = TOD 0 0 } addTransaction :: Transaction -> Journal -> Journal addTransaction t l0 = l0 { jtxns = t : jtxns l0 } addModifierTransaction :: ModifierTransaction -> Journal -> Journal addModifierTransaction mt l0 = l0 { jmodifiertxns = mt : jmodifiertxns l0 } addPeriodicTransaction :: PeriodicTransaction -> Journal -> Journal addPeriodicTransaction pt l0 = l0 { jperiodictxns = pt : jperiodictxns l0 } addHistoricalPrice :: HistoricalPrice -> Journal -> Journal addHistoricalPrice h l0 = l0 { historical_prices = h : historical_prices l0 } addTimeLogEntry :: TimeLogEntry -> Journal -> Journal addTimeLogEntry tle l0 = l0 { open_timelog_entries = tle : open_timelog_entries l0 } journalPostings :: Journal -> [Posting] journalPostings = concatMap tpostings . jtxns journalAccountNamesUsed :: Journal -> [AccountName] journalAccountNamesUsed = accountNamesFromPostings . journalPostings journalAccountNames :: Journal -> [AccountName] journalAccountNames = sort . expandAccountNames . journalAccountNamesUsed journalAccountNameTree :: Journal -> Tree AccountName journalAccountNameTree = accountNameTreeFrom . journalAccountNames -- Various kinds of filtering on journals. We do it differently depending -- on the command. -- | Keep only transactions we are interested in, as described by -- the filter specification. May also massage the data a little. filterJournalTransactions :: FilterSpec -> Journal -> Journal filterJournalTransactions FilterSpec{datespan=datespan ,cleared=cleared -- ,real=real -- ,empty=empty -- ,costbasis=_ ,acctpats=apats ,descpats=dpats ,whichdate=whichdate ,depth=depth } = filterJournalTransactionsByClearedStatus cleared . filterJournalPostingsByDepth depth . filterJournalTransactionsByAccount apats . filterJournalTransactionsByDescription dpats . filterJournalTransactionsByDate datespan . journalSelectingDate whichdate -- | Keep only postings we are interested in, as described by -- the filter specification. May also massage the data a little. -- This can leave unbalanced transactions. filterJournalPostings :: FilterSpec -> Journal -> Journal filterJournalPostings FilterSpec{datespan=datespan ,cleared=cleared ,real=real ,empty=empty -- ,costbasis=costbasis ,acctpats=apats ,descpats=dpats ,whichdate=whichdate ,depth=depth } = filterJournalPostingsByRealness real . filterJournalPostingsByClearedStatus cleared . filterJournalPostingsByEmpty empty . filterJournalPostingsByDepth depth . filterJournalPostingsByAccount apats . filterJournalTransactionsByDescription dpats . filterJournalTransactionsByDate datespan . journalSelectingDate whichdate -- | Keep only ledger transactions whose description matches the description patterns. filterJournalTransactionsByDescription :: [String] -> Journal -> Journal filterJournalTransactionsByDescription pats (Journal ms ps ts tls hs f fp ft) = Journal ms ps (filter matchdesc ts) tls hs f fp ft where matchdesc = matchpats pats . tdescription -- | Keep only ledger transactions which fall between begin and end dates. -- We include transactions on the begin date and exclude transactions on the end -- date, like ledger. An empty date string means no restriction. filterJournalTransactionsByDate :: DateSpan -> Journal -> Journal filterJournalTransactionsByDate (DateSpan begin end) (Journal ms ps ts tls hs f fp ft) = Journal ms ps (filter matchdate ts) tls hs f fp ft where matchdate t = maybe True (tdate t>=) begin && maybe True (tdate t<) end -- | Keep only ledger transactions which have the requested -- cleared/uncleared status, if there is one. filterJournalTransactionsByClearedStatus :: Maybe Bool -> Journal -> Journal filterJournalTransactionsByClearedStatus Nothing j = j filterJournalTransactionsByClearedStatus (Just val) (Journal ms ps ts tls hs f fp ft) = Journal ms ps (filter ((==val).tstatus) ts) tls hs f fp ft -- | Keep only postings which have the requested cleared/uncleared status, -- if there is one. filterJournalPostingsByClearedStatus :: Maybe Bool -> Journal -> Journal filterJournalPostingsByClearedStatus Nothing j = j filterJournalPostingsByClearedStatus (Just c) j@Journal{jtxns=ts} = j{jtxns=map filterpostings ts} where filterpostings t@Transaction{tpostings=ps} = t{tpostings=filter ((==c) . postingCleared) ps} -- | Strip out any virtual postings, if the flag is true, otherwise do -- no filtering. filterJournalPostingsByRealness :: Bool -> Journal -> Journal filterJournalPostingsByRealness False l = l filterJournalPostingsByRealness True (Journal mts pts ts tls hs f fp ft) = Journal mts pts (map filterpostings ts) tls hs f fp ft where filterpostings t@Transaction{tpostings=ps} = t{tpostings=filter isReal ps} -- | Strip out any postings with zero amount, unless the flag is true. filterJournalPostingsByEmpty :: Bool -> Journal -> Journal filterJournalPostingsByEmpty True l = l filterJournalPostingsByEmpty False (Journal mts pts ts tls hs f fp ft) = Journal mts pts (map filterpostings ts) tls hs f fp ft where filterpostings t@Transaction{tpostings=ps} = t{tpostings=filter (not . isEmptyPosting) ps} -- | Keep only transactions which affect accounts deeper than the specified depth. filterJournalTransactionsByDepth :: Maybe Int -> Journal -> Journal filterJournalTransactionsByDepth Nothing j = j filterJournalTransactionsByDepth (Just d) j@Journal{jtxns=ts} = j{jtxns=(filter (any ((<= d+1) . accountNameLevel . paccount) . tpostings) ts)} -- | Strip out any postings to accounts deeper than the specified depth -- (and any ledger transactions which have no postings as a result). filterJournalPostingsByDepth :: Maybe Int -> Journal -> Journal filterJournalPostingsByDepth Nothing j = j filterJournalPostingsByDepth (Just d) (Journal mts pts ts tls hs f fp ft) = Journal mts pts (filter (not . null . tpostings) $ map filtertxns ts) tls hs f fp ft where filtertxns t@Transaction{tpostings=ps} = t{tpostings=filter ((<= d) . accountNameLevel . paccount) ps} -- | Keep only transactions which affect accounts matched by the account patterns. filterJournalTransactionsByAccount :: [String] -> Journal -> Journal filterJournalTransactionsByAccount apats (Journal ms ps ts tls hs f fp ft) = Journal ms ps (filter (any (matchpats apats . paccount) . tpostings) ts) tls hs f fp ft -- | Keep only postings which affect accounts matched by the account patterns. -- This can leave transactions unbalanced. filterJournalPostingsByAccount :: [String] -> Journal -> Journal filterJournalPostingsByAccount apats j@Journal{jtxns=ts} = j{jtxns=map filterpostings ts} where filterpostings t@Transaction{tpostings=ps} = t{tpostings=filter (matchpats apats . paccount) ps} -- | Convert this journal's transactions' primary date to either the -- actual or effective date. journalSelectingDate :: WhichDate -> Journal -> Journal journalSelectingDate ActualDate j = j journalSelectingDate EffectiveDate j = j{jtxns=map (ledgerTransactionWithDate EffectiveDate) $ jtxns j} -- | Convert all the journal's amounts to their canonical display settings. -- Ie, in each commodity, amounts will use the display settings of the first -- amount detected, and the greatest precision of the amounts detected. -- Also, missing unit prices are added if known from the price history. -- Also, amounts are converted to cost basis if that flag is active. -- XXX refactor canonicaliseAmounts :: Bool -> Journal -> Journal canonicaliseAmounts costbasis j@(Journal ms ps ts tls hs f fp ft) = Journal ms ps (map fixledgertransaction ts) tls hs f fp ft where fixledgertransaction (Transaction d ed s c de co ts pr) = Transaction d ed s c de co (map fixrawposting ts) pr where fixrawposting (Posting s ac a c t txn) = Posting s ac (fixmixedamount a) c t txn fixmixedamount (Mixed as) = Mixed $ map fixamount as fixamount = (if costbasis then costOfAmount else id) . fixprice . fixcommodity fixcommodity a = a{commodity=c} where c = canonicalcommoditymap ! symbol (commodity a) canonicalcommoditymap = Map.fromList [(s,firstc{precision=maxp}) | s <- commoditysymbols, let cs = commoditymap ! s, let firstc = head cs, let maxp = maximum $ map precision cs ] commoditymap = Map.fromList [(s,commoditieswithsymbol s) | s <- commoditysymbols] commoditieswithsymbol s = filter ((s==) . symbol) commodities commoditysymbols = nub $ map symbol commodities commodities = map commodity (concatMap (amounts . pamount) (journalPostings j) ++ concatMap (amounts . hamount) (historical_prices j)) fixprice :: Amount -> Amount fixprice a@Amount{price=Just _} = a fixprice a@Amount{commodity=c} = a{price=journalHistoricalPriceFor j d c} -- | Get the price for a commodity on the specified day from the price database, if known. -- Does only one lookup step, ie will not look up the price of a price. journalHistoricalPriceFor :: Journal -> Day -> Commodity -> Maybe MixedAmount journalHistoricalPriceFor j d Commodity{symbol=s} = do let ps = reverse $ filter ((<= d).hdate) $ filter ((s==).hsymbol) $ sortBy (comparing hdate) $ historical_prices j case ps of (HistoricalPrice{hamount=a}:_) -> Just $ canonicaliseCommodities a _ -> Nothing where canonicaliseCommodities (Mixed as) = Mixed $ map canonicaliseCommodity as where canonicaliseCommodity a@Amount{commodity=Commodity{symbol=s}} = a{commodity=findWithDefault (error "programmer error: canonicaliseCommodity failed") s canonicalcommoditymap} -- | Get just the amounts from a ledger, in the order parsed. journalAmounts :: Journal -> [MixedAmount] journalAmounts = map pamount . journalPostings -- | Get just the ammount commodities from a ledger, in the order parsed. journalCommodities :: Journal -> [Commodity] journalCommodities = map commodity . concatMap amounts . journalAmounts -- | Get just the amount precisions from a ledger, in the order parsed. journalPrecisions :: Journal -> [Int] journalPrecisions = map precision . journalCommodities -- | Close any open timelog sessions using the provided current time. journalConvertTimeLog :: LocalTime -> Journal -> Journal journalConvertTimeLog t l0 = l0 { jtxns = convertedTimeLog ++ jtxns l0 , open_timelog_entries = [] } where convertedTimeLog = entriesFromTimeLogEntries t $ open_timelog_entries l0 -- | The (fully specified) date span containing all the raw ledger's transactions, -- or DateSpan Nothing Nothing if there are none. journalDateSpan :: Journal -> DateSpan journalDateSpan j | null ts = DateSpan Nothing Nothing | otherwise = DateSpan (Just $ tdate $ head ts) (Just $ addDays 1 $ tdate $ last ts) where ts = sortBy (comparing tdate) $ jtxns j -- | Check if a set of ledger account/description patterns matches the -- given account name or entry description. Patterns are case-insensitive -- regular expression strings; those beginning with - are anti-patterns. matchpats :: [String] -> String -> Bool matchpats pats str = (null positives || any match positives) && (null negatives || not (any match negatives)) where (negatives,positives) = partition isnegativepat pats match "" = True match pat = containsRegex (abspat pat) str negateprefix = "not:" isnegativepat = (negateprefix `isPrefixOf`) abspat pat = if isnegativepat pat then drop (length negateprefix) pat else pat -- | Calculate the account tree and account balances from a journal's -- postings, and return the results for efficient lookup. crunchJournal :: Journal -> (Tree AccountName, Map.Map AccountName Account) crunchJournal j = (ant,amap) where (ant,psof,_,inclbalof) = (groupPostings . journalPostings) j amap = Map.fromList [(a, acctinfo a) | a <- flatten ant] acctinfo a = Account a (psof a) (inclbalof a) -- | Given a list of postings, return an account name tree and three query -- functions that fetch postings, balance, and subaccount-including -- balance by account name. This factors out common logic from -- cacheLedger and summarisePostingsInDateSpan. groupPostings :: [Posting] -> (Tree AccountName, (AccountName -> [Posting]), (AccountName -> MixedAmount), (AccountName -> MixedAmount)) groupPostings ps = (ant,psof,exclbalof,inclbalof) where anames = sort $ nub $ map paccount ps ant = accountNameTreeFrom $ expandAccountNames anames allanames = flatten ant pmap = Map.union (postingsByAccount ps) (Map.fromList [(a,[]) | a <- allanames]) psof = (pmap !) balmap = Map.fromList $ flatten $ calculateBalances ant psof exclbalof = fst . (balmap !) inclbalof = snd . (balmap !) -- | Add subaccount-excluding and subaccount-including balances to a tree -- of account names somewhat efficiently, given a function that looks up -- transactions by account name. calculateBalances :: Tree AccountName -> (AccountName -> [Posting]) -> Tree (AccountName, (MixedAmount, MixedAmount)) calculateBalances ant psof = addbalances ant where addbalances (Node a subs) = Node (a,(bal,bal+subsbal)) subs' where bal = sumPostings $ psof a subsbal = sum $ map (snd . snd . root) subs' subs' = map addbalances subs -- | Convert a list of postings to a map from account name to that -- account's postings. postingsByAccount :: [Posting] -> Map.Map AccountName [Posting] postingsByAccount ps = m' where sortedps = sortBy (comparing paccount) ps groupedps = groupBy (\p1 p2 -> paccount p1 == paccount p2) sortedps m' = Map.fromList [(paccount $ head g, g) | g <- groupedps]