{-# LANGUAGE CPP #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Rank2Types #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE StandaloneDeriving #-} {-| A 'Journal' is a set of transactions, plus optional related data. This is hledger's primary data object. It is usually parsed from a journal file or other data format (see "Hledger.Read"). -} module Hledger.Data.Journal ( -- * Parsing helpers addPriceDirective, addTransactionModifier, addPeriodicTransaction, addTransaction, journalBalanceTransactions, journalApplyCommodityStyles, commodityStylesFromAmounts, journalCommodityStyles, journalToCost, journalReverse, journalSetLastReadTime, journalPivot, -- * Filtering filterJournalTransactions, filterJournalPostings, filterJournalAmounts, filterTransactionAmounts, filterTransactionPostings, filterPostingAmount, -- * Mapping mapJournalTransactions, mapJournalPostings, mapTransactionPostings, -- * Querying journalAccountNamesUsed, journalAccountNamesImplied, journalAccountNamesDeclared, journalAccountNamesDeclaredOrUsed, journalAccountNamesDeclaredOrImplied, journalAccountNames, -- journalAmountAndPriceCommodities, -- journalAmountStyles, -- overJournalAmounts, -- traverseJournalAmounts, -- journalCanonicalCommodities, journalDateSpan, journalStartDate, journalEndDate, journalDescriptions, journalFilePath, journalFilePaths, journalTransactionAt, journalNextTransaction, journalPrevTransaction, journalPostings, -- journalPrices, -- * Standard account types journalBalanceSheetAccountQuery, journalProfitAndLossAccountQuery, journalRevenueAccountQuery, journalExpenseAccountQuery, journalAssetAccountQuery, journalLiabilityAccountQuery, journalEquityAccountQuery, journalCashAccountQuery, -- * Misc canonicalStyleFrom, matchpats, nulljournal, journalCheckBalanceAssertions, journalNumberAndTieTransactions, journalUntieTransactions, journalModifyTransactions, -- * Tests samplejournal, tests_Journal, ) where import Control.Monad import Control.Monad.Except import Control.Monad.Extra import Control.Monad.Reader as R import Control.Monad.ST import Data.Array.ST import Data.Default (Default(..)) import Data.Function ((&)) import qualified Data.HashTable.Class as H (toList) import qualified Data.HashTable.ST.Cuckoo as H import Data.List import Data.List.Extra (groupSort, nubSort) import qualified Data.Map as M import Data.Maybe #if !(MIN_VERSION_base(4,11,0)) import Data.Semigroup (Semigroup(..)) #endif import qualified Data.Set as S import Data.Text (Text) import qualified Data.Text as T import Safe (headMay, headDef) import Data.Time.Calendar import Data.Tree import System.Time (ClockTime(TOD)) import Text.Printf import Hledger.Utils import Hledger.Data.Types import Hledger.Data.AccountName import Hledger.Data.Amount import Hledger.Data.Dates import Hledger.Data.Transaction import Hledger.Data.TransactionModifier import Hledger.Data.Posting import Hledger.Query -- try to make Journal ppShow-compatible -- instance Show ClockTime where -- show t = "" -- deriving instance Show Journal instance Show Journal where show j | debugLevel < 3 = printf "Journal %s with %d transactions, %d accounts" (journalFilePath j) (length $ jtxns j) (length accounts) | debugLevel < 6 = printf "Journal %s with %d transactions, %d accounts: %s" (journalFilePath j) (length $ jtxns j) (length accounts) (show accounts) | otherwise = printf "Journal %s with %d transactions, %d accounts: %s, commodity styles: %s" (journalFilePath j) (length $ jtxns j) (length accounts) (show accounts) (show $ jinferredcommodities j) -- ++ (show $ journalTransactions l) where accounts = filter (/= "root") $ flatten $ journalAccountNameTree j -- showJournalDebug j = unlines [ -- show j -- ,show (jtxns j) -- ,show (jtxnmodifiers j) -- ,show (jperiodictxns j) -- ,show $ jparsetimeclockentries j -- ,show $ jpricedirectives j -- ,show $ jfinalcommentlines j -- ,show $ jparsestate j -- ,show $ map fst $ jfiles j -- ] -- The semigroup instance for Journal is useful for two situations. -- -- 1. concatenating finalised journals, eg with multiple -f options: -- FIRST <> SECOND. The second's list fields are appended to the -- first's, map fields are combined, transaction counts are summed, -- the parse state of the second is kept. -- -- 2. merging a child parsed journal, eg with the include directive: -- CHILD <> PARENT. A parsed journal's data is in reverse order, so -- this gives what we want. -- -- Note that (<>) is right-biased, so nulljournal is only a left identity. -- In particular, this prevents Journal from being a monoid. instance Semigroup Journal where j1 <> j2 = Journal { jparsedefaultyear = jparsedefaultyear j2 ,jparsedefaultcommodity = jparsedefaultcommodity j2 ,jparseparentaccounts = jparseparentaccounts j2 ,jparsealiases = jparsealiases j2 -- ,jparsetransactioncount = jparsetransactioncount j1 + jparsetransactioncount j2 ,jparsetimeclockentries = jparsetimeclockentries j1 <> jparsetimeclockentries j2 ,jincludefilestack = jincludefilestack j2 ,jdeclaredaccounts = jdeclaredaccounts j1 <> jdeclaredaccounts j2 ,jdeclaredaccounttypes = jdeclaredaccounttypes j1 <> jdeclaredaccounttypes j2 ,jcommodities = jcommodities j1 <> jcommodities j2 ,jinferredcommodities = jinferredcommodities j1 <> jinferredcommodities j2 ,jpricedirectives = jpricedirectives j1 <> jpricedirectives j2 ,jtxnmodifiers = jtxnmodifiers j1 <> jtxnmodifiers j2 ,jperiodictxns = jperiodictxns j1 <> jperiodictxns j2 ,jtxns = jtxns j1 <> jtxns j2 ,jfinalcommentlines = jfinalcommentlines j2 -- XXX discards j1's ? ,jfiles = jfiles j1 <> jfiles j2 ,jlastreadtime = max (jlastreadtime j1) (jlastreadtime j2) } instance Default Journal where def = nulljournal nulljournal :: Journal nulljournal = Journal { jparsedefaultyear = Nothing ,jparsedefaultcommodity = Nothing ,jparseparentaccounts = [] ,jparsealiases = [] -- ,jparsetransactioncount = 0 ,jparsetimeclockentries = [] ,jincludefilestack = [] ,jdeclaredaccounts = [] ,jdeclaredaccounttypes = M.empty ,jcommodities = M.empty ,jinferredcommodities = M.empty ,jpricedirectives = [] ,jtxnmodifiers = [] ,jperiodictxns = [] ,jtxns = [] ,jfinalcommentlines = "" ,jfiles = [] ,jlastreadtime = TOD 0 0 } journalFilePath :: Journal -> FilePath journalFilePath = fst . mainfile journalFilePaths :: Journal -> [FilePath] journalFilePaths = map fst . jfiles mainfile :: Journal -> (FilePath, Text) mainfile = headDef ("", "") . jfiles addTransaction :: Transaction -> Journal -> Journal addTransaction t j = j { jtxns = t : jtxns j } addTransactionModifier :: TransactionModifier -> Journal -> Journal addTransactionModifier mt j = j { jtxnmodifiers = mt : jtxnmodifiers j } addPeriodicTransaction :: PeriodicTransaction -> Journal -> Journal addPeriodicTransaction pt j = j { jperiodictxns = pt : jperiodictxns j } addPriceDirective :: PriceDirective -> Journal -> Journal addPriceDirective h j = j { jpricedirectives = h : jpricedirectives j } -- XXX #999 keep sorted -- | Get the transaction with this index (its 1-based position in the input stream), if any. journalTransactionAt :: Journal -> Integer -> Maybe Transaction journalTransactionAt Journal{jtxns=ts} i = -- it's probably ts !! (i+1), but we won't assume headMay [t | t <- ts, tindex t == i] -- | Get the transaction that appeared immediately after this one in the input stream, if any. journalNextTransaction :: Journal -> Transaction -> Maybe Transaction journalNextTransaction j t = journalTransactionAt j (tindex t + 1) -- | Get the transaction that appeared immediately before this one in the input stream, if any. journalPrevTransaction :: Journal -> Transaction -> Maybe Transaction journalPrevTransaction j t = journalTransactionAt j (tindex t - 1) -- | Unique transaction descriptions used in this journal. journalDescriptions :: Journal -> [Text] journalDescriptions = nubSort . map tdescription . jtxns -- | All postings from this journal's transactions, in order. journalPostings :: Journal -> [Posting] journalPostings = concatMap tpostings . jtxns -- | Sorted unique account names posted to by this journal's transactions. journalAccountNamesUsed :: Journal -> [AccountName] journalAccountNamesUsed = accountNamesFromPostings . journalPostings -- | Sorted unique account names implied by this journal's transactions - -- accounts posted to and all their implied parent accounts. journalAccountNamesImplied :: Journal -> [AccountName] journalAccountNamesImplied = expandAccountNames . journalAccountNamesUsed -- | Sorted unique account names declared by account directives in this journal. journalAccountNamesDeclared :: Journal -> [AccountName] journalAccountNamesDeclared = nubSort . map fst . jdeclaredaccounts -- | Sorted unique account names declared by account directives or posted to -- by transactions in this journal. journalAccountNamesDeclaredOrUsed :: Journal -> [AccountName] journalAccountNamesDeclaredOrUsed j = nubSort $ journalAccountNamesDeclared j ++ journalAccountNamesUsed j -- | Sorted unique account names declared by account directives, or posted to -- or implied as parents by transactions in this journal. journalAccountNamesDeclaredOrImplied :: Journal -> [AccountName] journalAccountNamesDeclaredOrImplied j = nubSort $ journalAccountNamesDeclared j ++ journalAccountNamesImplied j -- | Convenience/compatibility alias for journalAccountNamesDeclaredOrImplied. journalAccountNames :: Journal -> [AccountName] journalAccountNames = journalAccountNamesDeclaredOrImplied journalAccountNameTree :: Journal -> Tree AccountName journalAccountNameTree = accountNameTreeFrom . journalAccountNames -- queries for standard account types -- | Get a query for accounts of a certain type (Asset, Liability..) in this journal. -- The query will match all accounts which were declared as that type by account directives, -- plus all their subaccounts which have not been declared as a different type. -- If no accounts were declared as this type, the query will instead match accounts -- with names matched by the provided case-insensitive regular expression. journalAccountTypeQuery :: AccountType -> Regexp -> Journal -> Query journalAccountTypeQuery atype fallbackregex j = case M.lookup atype (jdeclaredaccounttypes j) of Nothing -> Acct fallbackregex Just as -> -- XXX Query isn't able to match account type since that requires extra info from the journal. -- So we do a hacky search by name instead. And [ Or $ map (Acct . accountNameToAccountRegex) as ,Not $ Or $ map (Acct . accountNameToAccountRegex) differentlytypedsubs ] where differentlytypedsubs = concat [subs | (t,bs) <- M.toList (jdeclaredaccounttypes j) , t /= atype , let subs = [b | b <- bs, any (`isAccountNamePrefixOf` b) as] ] -- | A query for accounts in this journal which have been -- declared as Asset by account directives, or otherwise for -- accounts with names matched by the case-insensitive regular expression -- @^assets?(:|$)@. journalAssetAccountQuery :: Journal -> Query journalAssetAccountQuery = journalAccountTypeQuery Asset "^assets?(:|$)" -- | A query for accounts in this journal which have been -- declared as Liability by account directives, or otherwise for -- accounts with names matched by the case-insensitive regular expression -- @^(debts?|liabilit(y|ies))(:|$)@. journalLiabilityAccountQuery :: Journal -> Query journalLiabilityAccountQuery = journalAccountTypeQuery Liability "^(debts?|liabilit(y|ies))(:|$)" -- | A query for accounts in this journal which have been -- declared as Equity by account directives, or otherwise for -- accounts with names matched by the case-insensitive regular expression -- @^equity(:|$)@. journalEquityAccountQuery :: Journal -> Query journalEquityAccountQuery = journalAccountTypeQuery Equity "^equity(:|$)" -- | A query for accounts in this journal which have been -- declared as Revenue by account directives, or otherwise for -- accounts with names matched by the case-insensitive regular expression -- @^(income|revenue)s?(:|$)@. journalRevenueAccountQuery :: Journal -> Query journalRevenueAccountQuery = journalAccountTypeQuery Revenue "^(income|revenue)s?(:|$)" -- | A query for accounts in this journal which have been -- declared as Expense by account directives, or otherwise for -- accounts with names matched by the case-insensitive regular expression -- @^(income|revenue)s?(:|$)@. journalExpenseAccountQuery :: Journal -> Query journalExpenseAccountQuery = journalAccountTypeQuery Expense "^expenses?(:|$)" -- | A query for Asset, Liability & Equity accounts in this journal. -- Cf . journalBalanceSheetAccountQuery :: Journal -> Query journalBalanceSheetAccountQuery j = Or [journalAssetAccountQuery j ,journalLiabilityAccountQuery j ,journalEquityAccountQuery j ] -- | A query for Profit & Loss accounts in this journal. -- Cf . journalProfitAndLossAccountQuery :: Journal -> Query journalProfitAndLossAccountQuery j = Or [journalRevenueAccountQuery j ,journalExpenseAccountQuery j ] -- | A query for Cash (-equivalent) accounts in this journal (ie, -- accounts which appear on the cashflow statement.) This is currently -- hard-coded to be all the Asset accounts except for those with names -- containing the case-insensitive regular expression @(receivable|:A/R|:fixed)@. journalCashAccountQuery :: Journal -> Query journalCashAccountQuery j = And [journalAssetAccountQuery j, Not $ Acct "(receivable|:A/R|:fixed)"] -- Various kinds of filtering on journals. We do it differently depending -- on the command. ------------------------------------------------------------------------------- -- filtering V2 -- | Keep only transactions matching the query expression. filterJournalTransactions :: Query -> Journal -> Journal filterJournalTransactions q j@Journal{jtxns=ts} = j{jtxns=filter (q `matchesTransaction`) ts} -- | Keep only postings matching the query expression. -- This can leave unbalanced transactions. filterJournalPostings :: Query -> Journal -> Journal filterJournalPostings q j@Journal{jtxns=ts} = j{jtxns=map (filterTransactionPostings q) ts} -- | Within each posting's amount, keep only the parts matching the query. -- This can leave unbalanced transactions. filterJournalAmounts :: Query -> Journal -> Journal filterJournalAmounts q j@Journal{jtxns=ts} = j{jtxns=map (filterTransactionAmounts q) ts} -- | Filter out all parts of this transaction's amounts which do not match the query. -- This can leave the transaction unbalanced. filterTransactionAmounts :: Query -> Transaction -> Transaction filterTransactionAmounts q t@Transaction{tpostings=ps} = t{tpostings=map (filterPostingAmount q) ps} -- | Filter out all parts of this posting's amount which do not match the query. filterPostingAmount :: Query -> Posting -> Posting filterPostingAmount q p@Posting{pamount=Mixed as} = p{pamount=Mixed $ filter (q `matchesAmount`) as} filterTransactionPostings :: Query -> Transaction -> Transaction filterTransactionPostings q t@Transaction{tpostings=ps} = t{tpostings=filter (q `matchesPosting`) ps} -- | Apply a transformation to a journal's transactions. mapJournalTransactions :: (Transaction -> Transaction) -> Journal -> Journal mapJournalTransactions f j@Journal{jtxns=ts} = j{jtxns=map f ts} -- | Apply a transformation to a journal's postings. mapJournalPostings :: (Posting -> Posting) -> Journal -> Journal mapJournalPostings f j@Journal{jtxns=ts} = j{jtxns=map (mapTransactionPostings f) ts} -- | Apply a transformation to a transaction's postings. mapTransactionPostings :: (Posting -> Posting) -> Transaction -> Transaction mapTransactionPostings f t@Transaction{tpostings=ps} = t{tpostings=map f ps} {- ------------------------------------------------------------------------------- -- filtering V1 -- | Keep only transactions we are interested in, as described by the -- filter specification. filterJournalTransactions :: FilterSpec -> Journal -> Journal filterJournalTransactions FilterSpec{datespan=datespan ,cleared=cleared -- ,real=real -- ,empty=empty ,acctpats=apats ,descpats=dpats ,depth=depth ,fMetadata=md } = filterJournalTransactionsByStatus cleared . filterJournalPostingsByDepth depth . filterJournalTransactionsByAccount apats . filterJournalTransactionsByMetadata md . filterJournalTransactionsByDescription dpats . filterJournalTransactionsByDate datespan -- | Keep only postings we are interested in, as described by the filter -- specification. This can leave unbalanced transactions. filterJournalPostings :: FilterSpec -> Journal -> Journal filterJournalPostings FilterSpec{datespan=datespan ,cleared=cleared ,real=real ,empty=empty ,acctpats=apats ,descpats=dpats ,depth=depth ,fMetadata=md } = filterJournalPostingsByRealness real . filterJournalPostingsByStatus cleared . filterJournalPostingsByEmpty empty . filterJournalPostingsByDepth depth . filterJournalPostingsByAccount apats . filterJournalTransactionsByMetadata md . filterJournalTransactionsByDescription dpats . filterJournalTransactionsByDate datespan -- | Keep only transactions whose metadata matches all metadata specifications. filterJournalTransactionsByMetadata :: [(String,String)] -> Journal -> Journal filterJournalTransactionsByMetadata pats j@Journal{jtxns=ts} = j{jtxns=filter matchmd ts} where matchmd t = all (`elem` tmetadata t) pats -- | Keep only transactions whose description matches the description patterns. filterJournalTransactionsByDescription :: [String] -> Journal -> Journal filterJournalTransactionsByDescription pats j@Journal{jtxns=ts} = j{jtxns=filter matchdesc ts} where matchdesc = matchpats pats . tdescription -- | Keep only 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) j@Journal{jtxns=ts} = j{jtxns=filter match ts} where match t = maybe True (tdate t>=) begin && maybe True (tdate t<) end -- | Keep only transactions which have the requested cleared/uncleared -- status, if there is one. filterJournalTransactionsByStatus :: Maybe Bool -> Journal -> Journal filterJournalTransactionsByStatus Nothing j = j filterJournalTransactionsByStatus (Just val) j@Journal{jtxns=ts} = j{jtxns=filter match ts} where match = (==val).tstatus -- | Keep only postings which have the requested cleared/uncleared status, -- if there is one. filterJournalPostingsByStatus :: Maybe Bool -> Journal -> Journal filterJournalPostingsByStatus Nothing j = j filterJournalPostingsByStatus (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 j = j filterJournalPostingsByRealness True j@Journal{jtxns=ts} = j{jtxns=map filterpostings ts} 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 j = j filterJournalPostingsByEmpty False j@Journal{jtxns=ts} = j{jtxns=map filterpostings ts} 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 transactions which have no postings as a result). filterJournalPostingsByDepth :: Maybe Int -> Journal -> Journal filterJournalPostingsByDepth Nothing j = j filterJournalPostingsByDepth (Just d) j@Journal{jtxns=ts} = j{jtxns=filter (not . null . tpostings) $ map filtertxns ts} where filtertxns t@Transaction{tpostings=ps} = t{tpostings=filter ((<= d) . accountNameLevel . paccount) ps} -- | 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} -- | Keep only transactions which affect accounts matched by the account patterns. -- More precisely: each positive account pattern excludes transactions -- which do not contain a posting to a matched account, and each negative -- account pattern excludes transactions containing a posting to a matched -- account. filterJournalTransactionsByAccount :: [String] -> Journal -> Journal filterJournalTransactionsByAccount apats j@Journal{jtxns=ts} = j{jtxns=filter tmatch ts} where tmatch t = (null positives || any positivepmatch ps) && (null negatives || not (any negativepmatch ps)) where ps = tpostings t positivepmatch p = any (`amatch` a) positives where a = paccount p negativepmatch p = any (`amatch` a) negatives where a = paccount p amatch pat a = regexMatchesCI (abspat pat) a (negatives,positives) = partition isnegativepat apats -} -- | Reverse all lists of parsed items, which during parsing were -- prepended to, so that the items are in parse order. Part of -- post-parse finalisation. journalReverse :: Journal -> Journal journalReverse j = j {jfiles = reverse $ jfiles j ,jdeclaredaccounts = reverse $ jdeclaredaccounts j ,jtxns = reverse $ jtxns j ,jtxnmodifiers = reverse $ jtxnmodifiers j ,jperiodictxns = reverse $ jperiodictxns j ,jpricedirectives = reverse $ jpricedirectives j } -- | Set this journal's last read time, ie when its files were last read. journalSetLastReadTime :: ClockTime -> Journal -> Journal journalSetLastReadTime t j = j{ jlastreadtime = t } journalNumberAndTieTransactions = journalTieTransactions . journalNumberTransactions -- | Number (set the tindex field) this journal's transactions, counting upward from 1. journalNumberTransactions :: Journal -> Journal journalNumberTransactions j@Journal{jtxns=ts} = j{jtxns=map (\(i,t) -> t{tindex=i}) $ zip [1..] ts} -- | Tie the knot in all of this journal's transactions, ensuring their postings -- refer to them. This should be done last, after any other transaction-modifying operations. journalTieTransactions :: Journal -> Journal journalTieTransactions j@Journal{jtxns=ts} = j{jtxns=map txnTieKnot ts} -- | Untie all transaction-posting knots in this journal, so that eg -- recursiveSize and GHCI's :sprint can work on it. journalUntieTransactions :: Transaction -> Transaction journalUntieTransactions t@Transaction{tpostings=ps} = t{tpostings=map (\p -> p{ptransaction=Nothing}) ps} -- | Apply any transaction modifier rules in the journal -- (adding automated postings to transactions, eg). journalModifyTransactions :: Journal -> Journal journalModifyTransactions j = j{ jtxns = modifyTransactions (jtxnmodifiers j) (jtxns j) } -- | Check any balance assertions in the journal and return an error message -- if any of them fail (or if the transaction balancing they require fails). journalCheckBalanceAssertions :: Journal -> Maybe String journalCheckBalanceAssertions = either Just (const Nothing) . journalBalanceTransactions True -- "Transaction balancing", including: inferring missing amounts, -- applying balance assignments, checking transaction balancedness, -- checking balance assertions, respecting posting dates. These things -- are all interdependent. -- WARN tricky algorithm and code ahead. -- -- Code overview as of 20190219, this could/should be simplified/documented more: -- parseAndFinaliseJournal['] (Cli/Utils.hs), journalAddForecast (Common.hs), budgetJournal (BudgetReport.hs), tests (BalanceReport.hs) -- journalBalanceTransactions -- runST -- runExceptT -- balanceTransaction (Transaction.hs) -- balanceTransactionHelper -- runReaderT -- balanceTransactionAndCheckAssertionsB -- addAmountAndCheckAssertionB -- addOrAssignAmountAndCheckAssertionB -- balanceTransactionHelper (Transaction.hs) -- uiCheckBalanceAssertions d ui@UIState{aopts=UIOpts{cliopts_=copts}, ajournal=j} (ErrorScreen.hs) -- journalCheckBalanceAssertions -- journalBalanceTransactions -- transactionWizard, postingsBalanced (Add.hs), tests (Transaction.hs) -- balanceTransaction (Transaction.hs) XXX hledger add won't allow balance assignments + missing amount ? -- | Monad used for statefully balancing/amount-inferring/assertion-checking -- a sequence of transactions. -- Perhaps can be simplified, or would a different ordering of layers make sense ? -- If you see a way, let us know. type Balancing s = ReaderT (BalancingState s) (ExceptT String (ST s)) -- | The state used while balancing a sequence of transactions. data BalancingState s = BalancingState { -- read only bsStyles :: Maybe (M.Map CommoditySymbol AmountStyle) -- ^ commodity display styles ,bsUnassignable :: S.Set AccountName -- ^ accounts in which balance assignments may not be used ,bsAssrt :: Bool -- ^ whether to check balance assertions -- mutable ,bsBalances :: H.HashTable s AccountName MixedAmount -- ^ running account balances, initially empty ,bsTransactions :: STArray s Integer Transaction -- ^ a mutable array of the transactions being balanced -- (for efficiency ? journalBalanceTransactions says: not strictly necessary but avoids a sort at the end I think) } -- | Access the current balancing state, and possibly modify the mutable bits, -- lifting through the Except and Reader layers into the Balancing monad. withRunningBalance :: (BalancingState s -> ST s a) -> Balancing s a withRunningBalance f = ask >>= lift . lift . f -- | Get this account's current exclusive running balance. getRunningBalanceB :: AccountName -> Balancing s MixedAmount getRunningBalanceB acc = withRunningBalance $ \BalancingState{bsBalances} -> do fromMaybe 0 <$> H.lookup bsBalances acc -- | Add this amount to this account's exclusive running balance. -- Returns the new running balance. addToRunningBalanceB :: AccountName -> MixedAmount -> Balancing s MixedAmount addToRunningBalanceB acc amt = withRunningBalance $ \BalancingState{bsBalances} -> do old <- fromMaybe 0 <$> H.lookup bsBalances acc let new = old + amt H.insert bsBalances acc new return new -- | Set this account's exclusive running balance to this amount. -- Returns the change in exclusive running balance. setRunningBalanceB :: AccountName -> MixedAmount -> Balancing s MixedAmount setRunningBalanceB acc amt = withRunningBalance $ \BalancingState{bsBalances} -> do old <- fromMaybe 0 <$> H.lookup bsBalances acc H.insert bsBalances acc amt return $ amt - old -- | Set this account's exclusive running balance to whatever amount -- makes its *inclusive* running balance (the sum of exclusive running -- balances of this account and any subaccounts) be the given amount. -- Returns the change in exclusive running balance. setInclusiveRunningBalanceB :: AccountName -> MixedAmount -> Balancing s MixedAmount setInclusiveRunningBalanceB acc newibal = withRunningBalance $ \BalancingState{bsBalances} -> do oldebal <- fromMaybe 0 <$> H.lookup bsBalances acc allebals <- H.toList bsBalances let subsibal = -- sum of any subaccounts' running balances sum $ map snd $ filter ((acc `isAccountNamePrefixOf`).fst) allebals let newebal = newibal - subsibal H.insert bsBalances acc newebal return $ newebal - oldebal -- | Update (overwrite) this transaction in the balancing state. updateTransactionB :: Transaction -> Balancing s () updateTransactionB t = withRunningBalance $ \BalancingState{bsTransactions} -> void $ writeArray bsTransactions (tindex t) t -- | Infer any missing amounts (to satisfy balance assignments and -- to balance transactions) and check that all transactions balance -- and (optional) all balance assertions pass. Or return an error message -- (just the first error encountered). -- -- Assumes journalInferCommodityStyles has been called, since those -- affect transaction balancing. -- -- This does multiple things at once because amount inferring, balance -- assignments, balance assertions and posting dates are interdependent. journalBalanceTransactions :: Bool -> Journal -> Either String Journal journalBalanceTransactions assrt j' = let -- ensure transactions are numbered, so we can store them by number j@Journal{jtxns=ts} = journalNumberTransactions j' -- display precisions used in balanced checking styles = Just $ journalCommodityStyles j -- balance assignments will not be allowed on these txnmodifieraccts = S.fromList $ map paccount $ concatMap tmpostingrules $ jtxnmodifiers j in runST $ do -- We'll update a mutable array of transactions as we balance them, -- not strictly necessary but avoids a sort at the end I think. balancedtxns <- newListArray (1, genericLength ts) ts -- Infer missing posting amounts, check transactions are balanced, -- and check balance assertions. This is done in two passes: runExceptT $ do -- 1. Step through the transactions, balancing the ones which don't have balance assignments -- and leaving the others for later. The balanced ones are split into their postings. -- The postings and not-yet-balanced transactions remain in the same relative order. psandts :: [Either Posting Transaction] <- fmap concat $ forM ts $ \case t | null $ assignmentPostings t -> case balanceTransaction styles t of Left e -> throwError e Right t' -> do lift $ writeArray balancedtxns (tindex t') t' return $ map Left $ tpostings t' t -> return [Right t] -- 2. Sort these items by date, preserving the order of same-day items, -- and step through them while keeping running account balances, runningbals <- lift $ H.newSized (length $ journalAccountNamesUsed j) flip runReaderT (BalancingState styles txnmodifieraccts assrt runningbals balancedtxns) $ do -- performing balance assignments in, and balancing, the remaining transactions, -- and checking balance assertions as each posting is processed. void $ mapM' balanceTransactionAndCheckAssertionsB $ sortOn (either postingDate tdate) psandts ts' <- lift $ getElems balancedtxns return j{jtxns=ts'} -- | This function is called statefully on each of a date-ordered sequence of -- 1. fully explicit postings from already-balanced transactions and -- 2. not-yet-balanced transactions containing balance assignments. -- It executes balance assignments and finishes balancing the transactions, -- and checks balance assertions on each posting as it goes. -- An error will be thrown if a transaction can't be balanced -- or if an illegal balance assignment is found (cf checkIllegalBalanceAssignment). -- Transaction prices are removed, which helps eg balance-assertions.test: 15. Mix different commodities and assignments. -- This stores the balanced transactions in case 2 but not in case 1. balanceTransactionAndCheckAssertionsB :: Either Posting Transaction -> Balancing s () balanceTransactionAndCheckAssertionsB (Left p@Posting{}) = -- update the account's running balance and check the balance assertion if any void $ addAmountAndCheckAssertionB $ removePrices p balanceTransactionAndCheckAssertionsB (Right t@Transaction{tpostings=ps}) = do -- make sure we can handle the balance assignments mapM_ checkIllegalBalanceAssignmentB ps -- for each posting, infer its amount from the balance assignment if applicable, -- update the account's running balance and check the balance assertion if any ps' <- forM ps $ \p -> pure (removePrices p) >>= addOrAssignAmountAndCheckAssertionB -- infer any remaining missing amounts, and make sure the transaction is now fully balanced styles <- R.reader bsStyles case balanceTransactionHelper styles t{tpostings=ps'} of Left err -> throwError err Right (t', inferredacctsandamts) -> do -- for each amount just inferred, update the running balance mapM_ (uncurry addToRunningBalanceB) inferredacctsandamts -- and save the balanced transaction. updateTransactionB t' -- | If this posting has an explicit amount, add it to the account's running balance. -- If it has a missing amount and a balance assignment, infer the amount from, and -- reset the running balance to, the assigned balance. -- If it has a missing amount and no balance assignment, leave it for later. -- Then test the balance assertion if any. addOrAssignAmountAndCheckAssertionB :: Posting -> Balancing s Posting addOrAssignAmountAndCheckAssertionB p@Posting{paccount=acc, pamount=amt, pbalanceassertion=mba} -- an explicit posting amount | hasAmount p = do newbal <- addToRunningBalanceB acc amt whenM (R.reader bsAssrt) $ checkBalanceAssertionB p newbal return p -- no explicit posting amount, but there is a balance assignment -- TODO this doesn't yet handle inclusive assignments right, #1207 | Just BalanceAssertion{baamount,batotal,bainclusive} <- mba = do (diff,newbal) <- case batotal of -- a total balance assignment (==, all commodities) True -> do let newbal = Mixed [baamount] diff <- (if bainclusive then setInclusiveRunningBalanceB else setRunningBalanceB) acc newbal return (diff,newbal) -- a partial balance assignment (=, one commodity) False -> do oldbalothercommodities <- filterMixedAmount ((acommodity baamount /=) . acommodity) <$> getRunningBalanceB acc let assignedbalthiscommodity = Mixed [baamount] newbal = oldbalothercommodities + assignedbalthiscommodity diff <- (if bainclusive then setInclusiveRunningBalanceB else setRunningBalanceB) acc newbal return (diff,newbal) let p' = p{pamount=diff, poriginal=Just $ originalPosting p} whenM (R.reader bsAssrt) $ checkBalanceAssertionB p' newbal return p' -- no explicit posting amount, no balance assignment | otherwise = return p -- | Add the posting's amount to its account's running balance, and -- optionally check the posting's balance assertion if any. -- The posting is expected to have an explicit amount (otherwise this does nothing). -- Adding and checking balance assertions are tightly paired because we -- need to see the balance as it stands after each individual posting. addAmountAndCheckAssertionB :: Posting -> Balancing s Posting addAmountAndCheckAssertionB p | hasAmount p = do newbal <- addToRunningBalanceB (paccount p) (pamount p) whenM (R.reader bsAssrt) $ checkBalanceAssertionB p newbal return p addAmountAndCheckAssertionB p = return p -- | Check a posting's balance assertion against the given actual balance, and -- return an error if the assertion is not satisfied. -- If the assertion is partial, unasserted commodities in the actual balance -- are ignored; if it is total, they will cause the assertion to fail. checkBalanceAssertionB :: Posting -> MixedAmount -> Balancing s () checkBalanceAssertionB p@Posting{pbalanceassertion=Just (BalanceAssertion{baamount,batotal})} actualbal = forM_ assertedamts $ \amt -> checkBalanceAssertionOneCommodityB p amt actualbal where assertedamts = baamount : otheramts where assertedcomm = acommodity baamount otheramts | batotal = map (\a -> a{aquantity=0}) $ amounts $ filterMixedAmount ((/=assertedcomm).acommodity) actualbal | otherwise = [] checkBalanceAssertionB _ _ = return () -- | Does this (single commodity) expected balance match the amount of that -- commodity in the given (multicommodity) actual balance ? If not, returns a -- balance assertion failure message based on the provided posting. To match, -- the amounts must be exactly equal (display precision is ignored here). -- If the assertion is inclusive, the expected amount is compared with the account's -- subaccount-inclusive balance; otherwise, with the subaccount-exclusive balance. checkBalanceAssertionOneCommodityB :: Posting -> Amount -> MixedAmount -> Balancing s () checkBalanceAssertionOneCommodityB p@Posting{paccount=assertedacct} assertedamt actualbal = do let isinclusive = maybe False bainclusive $ pbalanceassertion p actualbal' <- if isinclusive then -- sum the running balances of this account and any of its subaccounts seen so far withRunningBalance $ \BalancingState{bsBalances} -> H.foldM (\ibal (acc, amt) -> return $ ibal + if assertedacct==acc || assertedacct `isAccountNamePrefixOf` acc then amt else 0) 0 bsBalances else return actualbal let assertedcomm = acommodity assertedamt actualbalincomm = headDef 0 $ amounts $ filterMixedAmountByCommodity assertedcomm $ actualbal' pass = aquantity -- traceWith (("asserted:"++).showAmountDebug) assertedamt == aquantity -- traceWith (("actual:"++).showAmountDebug) actualbalincomm errmsg = printf (unlines [ "balance assertion: %s", "\nassertion details:", "date: %s", "account: %s%s", "commodity: %s", -- "display precision: %d", "calculated: %s", -- (at display precision: %s)", "asserted: %s", -- (at display precision: %s)", "difference: %s" ]) (case ptransaction p of Nothing -> "?" -- shouldn't happen Just t -> printf "%s\ntransaction:\n%s" (showGenericSourcePos pos) (chomp $ showTransaction t) :: String where pos = baposition $ fromJust $ pbalanceassertion p ) (showDate $ postingDate p) (T.unpack $ paccount p) -- XXX pack (if isinclusive then " (and subs)" else "" :: String) assertedcomm -- (asprecision $ astyle actualbalincommodity) -- should be the standard display precision I think (show $ aquantity actualbalincomm) -- (showAmount actualbalincommodity) (show $ aquantity assertedamt) -- (showAmount assertedamt) (show $ aquantity assertedamt - aquantity actualbalincomm) when (not pass) $ throwError errmsg -- | Throw an error if this posting is trying to do an illegal balance assignment. checkIllegalBalanceAssignmentB :: Posting -> Balancing s () checkIllegalBalanceAssignmentB p = do checkBalanceAssignmentPostingDateB p checkBalanceAssignmentUnassignableAccountB p -- XXX these should show position. annotateErrorWithTransaction t ? -- | Throw an error if this posting is trying to do a balance assignment and -- has a custom posting date (which makes amount inference too hard/impossible). checkBalanceAssignmentPostingDateB :: Posting -> Balancing s () checkBalanceAssignmentPostingDateB p = when (hasBalanceAssignment p && isJust (pdate p)) $ throwError $ unlines $ ["postings which are balance assignments may not have a custom date." ,"Please write the posting amount explicitly, or remove the posting date:" ,"" ,maybe (unlines $ showPostingLines p) showTransaction $ ptransaction p ] -- | Throw an error if this posting is trying to do a balance assignment and -- the account does not allow balance assignments (eg because it is referenced -- by a transaction modifier, which might generate additional postings to it). checkBalanceAssignmentUnassignableAccountB :: Posting -> Balancing s () checkBalanceAssignmentUnassignableAccountB p = do unassignable <- R.asks bsUnassignable when (hasBalanceAssignment p && paccount p `S.member` unassignable) $ throwError $ unlines $ ["balance assignments cannot be used with accounts which are" ,"posted to by transaction modifier rules (auto postings)." ,"Please write the posting amount explicitly, or remove the rule." ,"" ,"account: "++T.unpack (paccount p) ,"" ,"transaction:" ,"" ,maybe (unlines $ showPostingLines p) showTransaction $ ptransaction p ] -- -- | Choose and apply a consistent display style to the posting -- amounts in each commodity. Each commodity's style is specified by a -- commodity (or D) directive, or otherwise inferred from posting -- amounts. Can return an error message eg if inconsistent number -- formats are found. journalApplyCommodityStyles :: Journal -> Either String Journal journalApplyCommodityStyles j@Journal{jtxns=ts, jpricedirectives=pds} = case journalInferCommodityStyles j of Left e -> Left e Right j' -> Right j'' where styles = journalCommodityStyles j' j'' = j'{jtxns=map fixtransaction ts ,jpricedirectives=map fixpricedirective pds } fixtransaction t@Transaction{tpostings=ps} = t{tpostings=map fixposting ps} fixposting p = p{pamount=styleMixedAmount styles $ pamount p ,pbalanceassertion=fixbalanceassertion <$> pbalanceassertion p} fixbalanceassertion ba = ba{baamount=styleAmount styles $ baamount ba} fixpricedirective pd@PriceDirective{pdamount=a} = pd{pdamount=styleAmountExceptPrecision styles a} -- | Get the canonical amount styles for this journal, whether -- declared by commodity directives, by the last default commodity (D) -- directive, or inferred from posting amounts, as a map from symbol -- to style. Styles declared by directives take precedence (and -- commodity takes precedence over D). Styles from directives are -- guaranteed to specify the decimal mark character. journalCommodityStyles :: Journal -> M.Map CommoditySymbol AmountStyle journalCommodityStyles j = -- XXX could be some redundancy here, cf journalStyleInfluencingAmounts commoditystyles <> defaultcommoditystyle <> inferredstyles where commoditystyles = M.mapMaybe cformat $ jcommodities j defaultcommoditystyle = M.fromList $ catMaybes [jparsedefaultcommodity j] inferredstyles = jinferredcommodities j -- | Collect and save inferred amount styles for each commodity based on -- the posting amounts in that commodity (excluding price amounts), ie: -- "the format of the first amount, adjusted to the highest precision of all amounts". -- Can return an error message eg if inconsistent number formats are found. journalInferCommodityStyles :: Journal -> Either String Journal journalInferCommodityStyles j = case commodityStylesFromAmounts $ dbg8 "journalInferCommodityStyles using amounts" $ journalStyleInfluencingAmounts j of Left e -> Left e Right cs -> Right j{jinferredcommodities = cs} -- | Given a list of amounts, in parse order (roughly speaking; see journalStyleInfluencingAmounts), -- build a map from their commodity names to standard commodity -- display formats. Can return an error message eg if inconsistent -- number formats are found. -- -- Though, these amounts may have come from multiple files, so we -- shouldn't assume they use consistent number formats. -- Currently we don't enforce that even within a single file, -- and this function never reports an error. -- commodityStylesFromAmounts :: [Amount] -> Either String (M.Map CommoditySymbol AmountStyle) commodityStylesFromAmounts amts = Right $ M.fromList commstyles where commamts = groupSort [(acommodity as, as) | as <- amts] commstyles = [(c, canonicalStyleFrom $ map astyle as) | (c,as) <- commamts] -- TODO: should probably detect and report inconsistencies here -- | Given a list of amount styles (assumed to be from parsed amounts -- in a single commodity), in parse order, choose a canonical style. -- Traditionally it's "the style of the first, with the maximum precision of all". -- canonicalStyleFrom :: [AmountStyle] -> AmountStyle canonicalStyleFrom [] = amountstyle canonicalStyleFrom ss@(s:_) = s{asprecision=prec, asdecimalpoint=Just decmark, asdigitgroups=mgrps} where -- precision is maximum of all precisions prec = maximumStrict $ map asprecision ss -- identify the digit group mark (& group sizes) mgrps = headMay $ mapMaybe asdigitgroups ss -- if a digit group mark was identified above, we can rely on that; -- make sure the decimal mark is different. If not, default to period. defdecmark = case mgrps of Just (DigitGroups '.' _) -> ',' _ -> '.' -- identify the decimal mark: the first one used, or the above default, -- but never the same character as the digit group mark. -- urgh.. refactor.. decmark = case mgrps of Just _ -> defdecmark _ -> headDef defdecmark $ mapMaybe asdecimalpoint ss -- -- | Apply this journal's historical price records to unpriced amounts where possible. -- journalApplyPriceDirectives :: Journal -> Journal -- journalApplyPriceDirectives j@Journal{jtxns=ts} = j{jtxns=map fixtransaction ts} -- where -- fixtransaction t@Transaction{tdate=d, tpostings=ps} = t{tpostings=map fixposting ps} -- where -- fixposting p@Posting{pamount=a} = p{pamount=fixmixedamount a} -- fixmixedamount (Mixed as) = Mixed $ map fixamount as -- fixamount = fixprice -- fixprice a@Amount{price=Just _} = a -- fixprice a@Amount{commodity=c} = a{price=maybe Nothing (Just . UnitPrice) $ journalPriceDirectiveFor 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. -- journalPriceDirectiveFor :: Journal -> Day -> CommoditySymbol -> Maybe MixedAmount -- journalPriceDirectiveFor j d CommoditySymbol{symbol=s} = do -- let ps = reverse $ filter ((<= d).pddate) $ filter ((s==).hsymbol) $ sortBy (comparing pddate) $ jpricedirectives j -- case ps of (PriceDirective{pdamount=a}:_) -> Just a -- _ -> Nothing -- | Convert all this journal's amounts to cost using the transaction prices, if any. -- The journal's commodity styles are applied to the resulting amounts. journalToCost :: Journal -> Journal journalToCost j@Journal{jtxns=ts} = j{jtxns=map (transactionToCost styles) ts} where styles = journalCommodityStyles j -- -- | Get this journal's unique, display-preference-canonicalised commodities, by symbol. -- journalCanonicalCommodities :: Journal -> M.Map String CommoditySymbol -- journalCanonicalCommodities j = canonicaliseCommodities $ journalAmountCommodities j -- -- | Get all this journal's amounts' commodities, in the order parsed. -- journalAmountCommodities :: Journal -> [CommoditySymbol] -- journalAmountCommodities = map acommodity . concatMap amounts . journalAmounts -- -- | Get all this journal's amount and price commodities, in the order parsed. -- journalAmountAndPriceCommodities :: Journal -> [CommoditySymbol] -- journalAmountAndPriceCommodities = concatMap amountCommodities . concatMap amounts . journalAmounts -- -- | Get this amount's commodity and any commodities referenced in its price. -- amountCommodities :: Amount -> [CommoditySymbol] -- amountCommodities Amount{acommodity=c,aprice=p} = -- case p of Nothing -> [c] -- Just (UnitPrice ma) -> c:(concatMap amountCommodities $ amounts ma) -- Just (TotalPrice ma) -> c:(concatMap amountCommodities $ amounts ma) -- | Get an ordered list of amounts in this journal which can -- influence canonical amount display styles. Those amounts are, in -- the following order: -- -- * amounts in market price (P) directives (in parse order) -- * posting amounts in transactions (in parse order) -- * the amount in the final default commodity (D) directive -- -- Transaction price amounts (posting amounts' aprice field) are not included. -- journalStyleInfluencingAmounts :: Journal -> [Amount] journalStyleInfluencingAmounts j = catMaybes $ concat [ [mdefaultcommodityamt] ,map (Just . pdamount) $ jpricedirectives j ,map Just $ concatMap amounts $ map pamount $ journalPostings j ] where -- D's amount style isn't actually stored as an amount, make it into one mdefaultcommodityamt = case jparsedefaultcommodity j of Just (symbol,style) -> Just nullamt{acommodity=symbol,astyle=style} Nothing -> Nothing -- overcomplicated/unused amount traversal stuff -- -- | Get an ordered list of 'AmountStyle's from the amounts in this -- journal which influence canonical amount display styles. See -- traverseJournalAmounts. -- journalAmounts :: Journal -> [Amount] -- journalAmounts = getConst . traverseJournalAmounts (Const . (:[])) -- -- | Apply a transformation to the journal amounts traversed by traverseJournalAmounts. -- overJournalAmounts :: (Amount -> Amount) -> Journal -> Journal -- overJournalAmounts f = runIdentity . traverseJournalAmounts (Identity . f) -- -- | A helper that traverses over most amounts in the journal, -- in particular the ones which influence canonical amount display styles, -- processing them with the given applicative function. -- -- These include, in the following order: -- -- * the amount in the final default commodity (D) directive -- * amounts in market price (P) directives (in parse order) -- * posting amounts in transactions (in parse order) -- -- Transaction price amounts, which may be embedded in posting amounts -- (the aprice field), are left intact but not traversed/processed. -- -- traverseJournalAmounts :: Applicative f => (Amount -> f Amount) -> Journal -> f Journal -- traverseJournalAmounts f j = -- recombine <$> (traverse . dcamt) f (jparsedefaultcommodity j) -- <*> (traverse . pdamt) f (jpricedirectives j) -- <*> (traverse . tps . traverse . pamt . amts . traverse) f (jtxns j) -- where -- recombine pds txns = j { jpricedirectives = pds, jtxns = txns } -- -- a bunch of traversals -- dcamt g pd = (\mdc -> case mdc of Nothing -> Nothing -- Just ((c,stpd{pdamount =amt} -- ) <$> g (pdamount pd) -- pdamt g pd = (\amt -> pd{pdamount =amt}) <$> g (pdamount pd) -- tps g t = (\ps -> t {tpostings=ps }) <$> g (tpostings t) -- pamt g p = (\amt -> p {pamount =amt}) <$> g (pamount p) -- amts g (Mixed as) = Mixed <$> g as -- | The fully specified date span enclosing the dates (primary or secondary) -- of all this journal's transactions and postings, or DateSpan Nothing Nothing -- if there are none. journalDateSpan :: Bool -> Journal -> DateSpan journalDateSpan secondary j | null ts = DateSpan Nothing Nothing | otherwise = DateSpan (Just earliest) (Just $ addDays 1 latest) where earliest = minimumStrict dates latest = maximumStrict dates dates = pdates ++ tdates tdates = map (if secondary then transactionDate2 else tdate) ts pdates = concatMap (mapMaybe (if secondary then (Just . postingDate2) else pdate) . tpostings) ts ts = jtxns j -- | The earliest of this journal's transaction and posting dates, or -- Nothing if there are none. journalStartDate :: Bool -> Journal -> Maybe Day journalStartDate secondary j = b where DateSpan b _ = journalDateSpan secondary j -- | The latest of this journal's transaction and posting dates, or -- Nothing if there are none. journalEndDate :: Bool -> Journal -> Maybe Day journalEndDate secondary j = e where DateSpan _ e = journalDateSpan secondary j -- | Apply the pivot transformation to all postings in a journal, -- replacing their account name by their value for the given field or tag. journalPivot :: Text -> Journal -> Journal journalPivot fieldortagname j = j{jtxns = map (transactionPivot fieldortagname) . jtxns $ j} -- | Replace this transaction's postings' account names with the value -- of the given field or tag, if any. transactionPivot :: Text -> Transaction -> Transaction transactionPivot fieldortagname t = t{tpostings = map (postingPivot fieldortagname) . tpostings $ t} -- | Replace this posting's account name with the value -- of the given field or tag, if any, otherwise the empty string. postingPivot :: Text -> Posting -> Posting postingPivot fieldortagname p = p{paccount = pivotedacct, poriginal = Just $ originalPosting p} where pivotedacct | Just t <- ptransaction p, fieldortagname == "code" = tcode t | Just t <- ptransaction p, fieldortagname == "description" = tdescription t | Just t <- ptransaction p, fieldortagname == "payee" = transactionPayee t | Just t <- ptransaction p, fieldortagname == "note" = transactionNote t | Just (_, value) <- postingFindTag fieldortagname p = value | otherwise = "" postingFindTag :: TagName -> Posting -> Maybe (TagName, TagValue) postingFindTag tagname p = find ((tagname==) . fst) $ postingAllTags p -- -- | Build a database of market prices in effect on the given date, -- -- from the journal's price directives. -- journalPrices :: Day -> Journal -> Prices -- journalPrices d = toPrices d . jpricedirectives -- -- | Render a market price as a P directive. -- showPriceDirectiveDirective :: PriceDirective -> String -- showPriceDirectiveDirective pd = unwords -- [ "P" -- , showDate (pddate pd) -- , T.unpack (pdcommodity pd) -- , (showAmount . setAmountPrecision maxprecision) (pdamount pd -- ) -- ] -- Misc helpers -- | Check if a set of hledger account/description filter patterns matches the -- given account name or entry description. Patterns are case-insensitive -- regular expressions. Prefixed with not:, they become 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 = regexMatchesCI (abspat pat) str negateprefix = "not:" isnegativepat = (negateprefix `isPrefixOf`) abspat pat = if isnegativepat pat then drop (length negateprefix) pat else pat -- debug helpers -- traceAmountPrecision a = trace (show $ map (precision . acommodity) $ amounts a) a -- tracePostingsCommodities ps = trace (show $ map ((map (precision . acommodity) . amounts) . pamount) ps) ps -- tests -- A sample journal for testing, similar to examples/sample.journal: -- -- 2008/01/01 income -- assets:bank:checking $1 -- income:salary -- -- 2008/06/01 gift -- assets:bank:checking $1 -- income:gifts -- -- 2008/06/02 save -- assets:bank:saving $1 -- assets:bank:checking -- -- 2008/06/03 * eat & shop -- expenses:food $1 -- expenses:supplies $1 -- assets:cash -- -- 2008/10/01 take a loan -- assets:bank:checking $1 -- liabilities:debts $-1 -- -- 2008/12/31 * pay off -- liabilities:debts $1 -- assets:bank:checking -- Right samplejournal = journalBalanceTransactions False $ nulljournal {jtxns = [ txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/01/01", tdate2=Nothing, tstatus=Unmarked, tcode="", tdescription="income", tcomment="", ttags=[], tpostings= ["assets:bank:checking" `post` usd 1 ,"income:salary" `post` missingamt ], tprecedingcomment="" } , txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/06/01", tdate2=Nothing, tstatus=Unmarked, tcode="", tdescription="gift", tcomment="", ttags=[], tpostings= ["assets:bank:checking" `post` usd 1 ,"income:gifts" `post` missingamt ], tprecedingcomment="" } , txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/06/02", tdate2=Nothing, tstatus=Unmarked, tcode="", tdescription="save", tcomment="", ttags=[], tpostings= ["assets:bank:saving" `post` usd 1 ,"assets:bank:checking" `post` usd (-1) ], tprecedingcomment="" } , txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/06/03", tdate2=Nothing, tstatus=Cleared, tcode="", tdescription="eat & shop", tcomment="", ttags=[], tpostings=["expenses:food" `post` usd 1 ,"expenses:supplies" `post` usd 1 ,"assets:cash" `post` missingamt ], tprecedingcomment="" } , txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/10/01", tdate2=Nothing, tstatus=Unmarked, tcode="", tdescription="take a loan", tcomment="", ttags=[], tpostings=["assets:bank:checking" `post` usd 1 ,"liabilities:debts" `post` usd (-1) ], tprecedingcomment="" } , txnTieKnot $ Transaction { tindex=0, tsourcepos=nullsourcepos, tdate=parsedate "2008/12/31", tdate2=Nothing, tstatus=Unmarked, tcode="", tdescription="pay off", tcomment="", ttags=[], tpostings=["liabilities:debts" `post` usd 1 ,"assets:bank:checking" `post` usd (-1) ], tprecedingcomment="" } ] } tests_Journal = tests "Journal" [ test "journalDateSpan" $ journalDateSpan True nulljournal{ jtxns = [nulltransaction{tdate = parsedate "2014/02/01" ,tpostings = [posting{pdate=Just (parsedate "2014/01/10")}] } ,nulltransaction{tdate = parsedate "2014/09/01" ,tpostings = [posting{pdate2=Just (parsedate "2014/10/10")}] } ] } @?= (DateSpan (Just $ fromGregorian 2014 1 10) (Just $ fromGregorian 2014 10 11)) ,tests "standard account type queries" $ let j = samplejournal journalAccountNamesMatching :: Query -> Journal -> [AccountName] journalAccountNamesMatching q = filter (q `matchesAccount`) . journalAccountNames namesfrom qfunc = journalAccountNamesMatching (qfunc j) j in [ test "assets" $ assertEqual "" (namesfrom journalAssetAccountQuery) ["assets","assets:bank","assets:bank:checking","assets:bank:saving","assets:cash"] ,test "liabilities" $ assertEqual "" (namesfrom journalLiabilityAccountQuery) ["liabilities","liabilities:debts"] ,test "equity" $ assertEqual "" (namesfrom journalEquityAccountQuery) [] ,test "income" $ assertEqual "" (namesfrom journalRevenueAccountQuery) ["income","income:gifts","income:salary"] ,test "expenses" $ assertEqual "" (namesfrom journalExpenseAccountQuery) ["expenses","expenses:food","expenses:supplies"] ] ,tests "journalBalanceTransactions" [ test "balance-assignment" $ do let ej = journalBalanceTransactions True $ --2019/01/01 -- (a) = 1 nulljournal{ jtxns = [ transaction "2019/01/01" [ vpost' "a" missingamt (balassert (num 1)) ] ]} assertRight ej let Right j = ej (jtxns j & head & tpostings & head & pamount) @?= Mixed [num 1] ,test "same-day-1" $ do assertRight $ journalBalanceTransactions True $ --2019/01/01 -- (a) = 1 --2019/01/01 -- (a) 1 = 2 nulljournal{ jtxns = [ transaction "2019/01/01" [ vpost' "a" missingamt (balassert (num 1)) ] ,transaction "2019/01/01" [ vpost' "a" (num 1) (balassert (num 2)) ] ]} ,test "same-day-2" $ do assertRight $ journalBalanceTransactions True $ --2019/01/01 -- (a) 2 = 2 --2019/01/01 -- b 1 -- a --2019/01/01 -- a 0 = 1 nulljournal{ jtxns = [ transaction "2019/01/01" [ vpost' "a" (num 2) (balassert (num 2)) ] ,transaction "2019/01/01" [ post' "b" (num 1) Nothing ,post' "a" missingamt Nothing ] ,transaction "2019/01/01" [ post' "a" (num 0) (balassert (num 1)) ] ]} ,test "out-of-order" $ do assertRight $ journalBalanceTransactions True $ --2019/1/2 -- (a) 1 = 2 --2019/1/1 -- (a) 1 = 1 nulljournal{ jtxns = [ transaction "2019/01/02" [ vpost' "a" (num 1) (balassert (num 2)) ] ,transaction "2019/01/01" [ vpost' "a" (num 1) (balassert (num 1)) ] ]} ] ,tests "commodityStylesFromAmounts" $ [ -- Journal similar to the one on #1091: -- 2019/09/24 -- (a) 1,000.00 -- -- 2019/09/26 -- (a) 1000,000 -- test "1091a" $ do commodityStylesFromAmounts [ nullamt{aquantity=1000, astyle=AmountStyle L False 3 (Just ',') Nothing} ,nullamt{aquantity=1000, astyle=AmountStyle L False 2 (Just '.') (Just (DigitGroups ',' [3]))} ] @?= -- The commodity style should have period as decimal mark -- and comma as digit group mark. Right (M.fromList [ ("", AmountStyle L False 3 (Just '.') (Just (DigitGroups ',' [3]))) ]) -- same journal, entries in reverse order ,test "1091b" $ do commodityStylesFromAmounts [ nullamt{aquantity=1000, astyle=AmountStyle L False 2 (Just '.') (Just (DigitGroups ',' [3]))} ,nullamt{aquantity=1000, astyle=AmountStyle L False 3 (Just ',') Nothing} ] @?= -- The commodity style should have period as decimal mark -- and comma as digit group mark. Right (M.fromList [ ("", AmountStyle L False 3 (Just '.') (Just (DigitGroups ',' [3]))) ]) ] ]