--- * -*- outline-regexp:"--- \\*"; -*- --- ** doc -- In Emacs, use TAB on lines beginning with "-- *" to collapse/expand sections. {-| File reading/parsing utilities used by multiple readers, and a good amount of the parsers for journal format, to avoid import cycles when JournalReader imports other readers. Some of these might belong in Hledger.Read.JournalReader or Hledger.Read. -} --- ** language {-# LANGUAGE BangPatterns #-} {-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE NoMonoLocalBinds #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE Rank2Types #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE TypeFamilies #-} --- ** exports module Hledger.Read.Common ( Reader (..), InputOpts(..), HasInputOpts(..), definputopts, rawOptsToInputOpts, -- * parsing utilities parseAndFinaliseJournal, initialiseAndParseJournal, journalFinalise, journalAddForecast, journalAddAutoPostings, setYear, getYear, setDefaultCommodityAndStyle, getDefaultCommodityAndStyle, getDefaultAmountStyle, getAmountStyle, addDeclaredAccountTags, addDeclaredAccountType, pushParentAccount, popParentAccount, getParentAccount, addAccountAlias, getAccountAliases, clearAccountAliases, journalAddFile, -- * parsers -- ** transaction bits statusp, codep, descriptionp, -- ** dates datep, datetimep, secondarydatep, -- ** account names modifiedaccountnamep, accountnamep, -- ** account aliases accountaliasp, -- ** amounts spaceandamountormissingp, amountp, amountp', mamountp', amountpwithmultiplier, commoditysymbolp, priceamountp, balanceassertionp, lotpricep, numberp, fromRawNumber, rawnumberp, -- ** comments isLineCommentStart, isSameLineCommentStart, multilinecommentp, emptyorcommentlinep, followingcommentp, transactioncommentp, postingcommentp, -- ** bracketed dates bracketeddatetagsp, -- ** misc noncommenttextp, noncommenttext1p, singlespacedtext1p, singlespacednoncommenttext1p, singlespacedtextsatisfying1p, singlespacep, skipNonNewlineSpaces, skipNonNewlineSpaces1, aliasesFromOpts, -- * tests tests_Common, ) where --- ** imports import Control.Applicative.Permutations (runPermutation, toPermutationWithDefault) import qualified Control.Monad.Fail as Fail (fail) import Control.Monad.Except (ExceptT(..), liftEither, withExceptT) import Control.Monad.State.Strict hiding (fail) import Data.Bifunctor (bimap, second) import Data.Char (digitToInt, isDigit, isSpace) import Data.Decimal (DecimalRaw (Decimal), Decimal) import Data.Either (lefts, rights) import Data.Function ((&)) import Data.Functor ((<&>), ($>)) import Data.List (find, genericReplicate, union) import Data.List.NonEmpty (NonEmpty(..)) import Data.Maybe (catMaybes, fromMaybe, isJust, listToMaybe) import qualified Data.Map as M import qualified Data.Semigroup as Sem import Data.Text (Text) import qualified Data.Text as T import Data.Time.Calendar (Day, fromGregorianValid, toGregorian) import Data.Time.Clock.POSIX (getPOSIXTime) import Data.Time.LocalTime (LocalTime(..), TimeOfDay(..)) import Data.Word (Word8) import Text.Megaparsec import Text.Megaparsec.Char (char, char', digitChar, newline, string) import Text.Megaparsec.Char.Lexer (decimal) import Text.Megaparsec.Custom (FinalParseError, attachSource, customErrorBundlePretty, finalErrorBundlePretty, parseErrorAt, parseErrorAtRegion, HledgerParseErrors) import Hledger.Data import Hledger.Query (Query(..), filterQuery, parseQueryTerm, queryEndDate, queryStartDate, queryIsDate, simplifyQuery) import Hledger.Reports.ReportOptions (ReportOpts(..), queryFromFlags, rawOptsToReportOpts) import Hledger.Utils import Hledger.Read.InputOptions --- ** doctest setup -- $setup -- >>> :set -XOverloadedStrings --- ** types -- main types; a few more below -- | A hledger journal reader is a triple of storage format name, a -- detector of that format, and a parser from that format to Journal. -- The type variable m appears here so that rParserr can hold a -- journal parser, which depends on it. data Reader m = Reader { -- The canonical name of the format handled by this reader rFormat :: StorageFormat -- The file extensions recognised as containing this format ,rExtensions :: [String] -- The entry point for reading this format, accepting input options, file -- path for error messages and file contents, producing an exception-raising IO -- action that produces a journal or error message. ,rReadFn :: InputOpts -> FilePath -> Text -> ExceptT String IO Journal -- The actual megaparsec parser called by the above, in case -- another parser (includedirectivep) wants to use it directly. ,rParser :: MonadIO m => ErroringJournalParser m ParsedJournal } instance Show (Reader m) where show r = rFormat r ++ " reader" -- | Parse an InputOpts from a RawOpts and a provided date. -- This will fail with a usage error if the forecast period expression cannot be parsed. rawOptsToInputOpts :: Day -> RawOpts -> InputOpts rawOptsToInputOpts day rawopts = let noinferprice = boolopt "strict" rawopts || stringopt "args" rawopts == "balancednoautoconversion" -- Do we really need to do all this work just to get the requested end date? This is duplicating -- much of reportOptsToSpec. ropts = rawOptsToReportOpts day rawopts argsquery = lefts . rights . map (parseQueryTerm day) $ querystring_ ropts datequery = simplifyQuery . filterQuery queryIsDate . And $ queryFromFlags ropts : argsquery commodity_styles = either err id $ commodityStyleFromRawOpts rawopts where err e = error' $ "could not parse commodity-style: '" ++ e ++ "'" -- PARTIAL: in InputOpts{ -- files_ = listofstringopt "file" rawopts mformat_ = Nothing ,mrules_file_ = maybestringopt "rules-file" rawopts ,aliases_ = listofstringopt "alias" rawopts ,anon_ = boolopt "anon" rawopts ,new_ = boolopt "new" rawopts ,new_save_ = True ,pivot_ = stringopt "pivot" rawopts ,forecast_ = forecastPeriodFromRawOpts day rawopts ,reportspan_ = DateSpan (queryStartDate False datequery) (queryEndDate False datequery) ,auto_ = boolopt "auto" rawopts ,infer_equity_ = boolopt "infer-equity" rawopts && conversionop_ ropts /= Just ToCost ,balancingopts_ = defbalancingopts{ ignore_assertions_ = boolopt "ignore-assertions" rawopts , infer_transaction_prices_ = not noinferprice , commodity_styles_ = Just commodity_styles } ,strict_ = boolopt "strict" rawopts ,_ioDay = day } -- | Get the date span from --forecast's PERIODEXPR argument, if any. -- This will fail with a usage error if the period expression cannot be parsed, -- or if it contains a report interval. forecastPeriodFromRawOpts :: Day -> RawOpts -> Maybe DateSpan forecastPeriodFromRawOpts d rawopts = do arg <- maybestringopt "forecast" rawopts let period = parsePeriodExpr d . stripquotes $ T.pack arg return $ if null arg then nulldatespan else either badParse (getSpan arg) period where badParse e = usageError $ "could not parse forecast period : "++customErrorBundlePretty e getSpan arg (interval, requestedspan) = case interval of NoInterval -> requestedspan _ -> usageError $ "--forecast's argument should not contain a report interval (" ++ show interval ++ " in \"" ++ arg ++ "\")" -- | Given the name of the option and the raw options, returns either -- | * a map of successfully parsed commodity styles, if all options where successfully parsed -- | * the first option which failed to parse, if one or more options failed to parse commodityStyleFromRawOpts :: RawOpts -> Either String (M.Map CommoditySymbol AmountStyle) commodityStyleFromRawOpts rawOpts = foldM (\r -> fmap (\(c,a) -> M.insert c a r) . parseCommodity) mempty optList where optList = listofstringopt "commodity-style" rawOpts parseCommodity optStr = case amountp'' optStr of Left _ -> Left optStr Right (Amount acommodity _ astyle _) -> Right (acommodity, astyle) -- | Given a parser to ParsedJournal, input options, file path and -- content: run the parser on the content, and finalise the result to -- get a Journal; or throw an error. parseAndFinaliseJournal :: ErroringJournalParser IO ParsedJournal -> InputOpts -> FilePath -> Text -> ExceptT String IO Journal parseAndFinaliseJournal parser iopts f txt = initialiseAndParseJournal parser iopts f txt >>= journalFinalise iopts f txt -- | Given a parser to ParsedJournal, input options, file path and -- content: run the parser on the content. This is all steps of -- 'parseAndFinaliseJournal' without the finalisation step, and is used when -- you need to perform other actions before finalisation, as in parsing -- Timeclock and Timedot files. initialiseAndParseJournal :: ErroringJournalParser IO ParsedJournal -> InputOpts -> FilePath -> Text -> ExceptT String IO Journal initialiseAndParseJournal parser iopts f txt = prettyParseErrors $ runParserT (evalStateT parser initJournal) f txt where y = first3 . toGregorian $ _ioDay iopts initJournal = nulljournal{jparsedefaultyear = Just y, jincludefilestack = [f]} -- Flatten parse errors and final parse errors, and output each as a pretty String. prettyParseErrors :: ExceptT FinalParseError IO (Either (ParseErrorBundle Text HledgerParseErrorData) a) -> ExceptT String IO a prettyParseErrors = withExceptT customErrorBundlePretty . liftEither <=< withExceptT (finalErrorBundlePretty . attachSource f txt) {- HLINT ignore journalFinalise "Redundant <&>" -} -- silence this warning, the code is clearer as is -- NB activates TH, may slow compilation ? https://github.com/ndmitchell/hlint/blob/master/README.md#customizing-the-hints -- | Post-process a Journal that has just been parsed or generated, in this order: -- -- - add misc info (file path, read time) -- -- - reverse transactions into their original parse order -- -- - apply canonical commodity styles -- -- - add tags from account directives to postings' tags -- -- - add forecast transactions if enabled -- -- - add tags from account directives to postings' tags (again to affect forecast transactions) -- -- - add auto postings if enabled -- -- - add tags from account directives to postings' tags (again to affect auto postings) -- -- - evaluate balance assignments and balance each transaction -- -- - check balance assertions if enabled -- -- - infer equity postings in conversion transactions if enabled -- -- - infer market prices from costs if enabled -- -- - check all accounts have been declared if in strict mode -- -- - check all commodities have been declared if in strict mode -- journalFinalise :: InputOpts -> FilePath -> Text -> ParsedJournal -> ExceptT String IO Journal journalFinalise iopts@InputOpts{auto_,infer_equity_,balancingopts_,strict_,_ioDay} f txt pj = do t <- liftIO getPOSIXTime liftEither $ do j <- pj{jglobalcommoditystyles=fromMaybe mempty $ commodity_styles_ balancingopts_} & journalSetLastReadTime t -- save the last read time & journalAddFile (f, txt) -- save the main file's info & journalReverse -- convert all lists to the order they were parsed & journalAddAccountTypes -- build a map of all known account types & journalApplyCommodityStyles -- Infer and apply commodity styles - should be done early <&> journalAddForecast (forecastPeriod iopts pj) -- Add forecast transactions if enabled <&> journalPostingsAddAccountTags -- Add account tags to postings, so they can be matched by auto postings. >>= (if auto_ && not (null $ jtxnmodifiers pj) then journalAddAutoPostings _ioDay balancingopts_ -- Add auto postings if enabled, and account tags if needed else pure) >>= journalBalanceTransactions balancingopts_ -- Balance all transactions and maybe check balance assertions. <&> (if infer_equity_ then journalAddInferredEquityPostings else id) -- Add inferred equity postings, after balancing transactions and generating auto postings <&> journalInferMarketPricesFromTransactions -- infer market prices from commodity-exchanging transactions when strict_ $ do journalCheckAccounts j -- If in strict mode, check all postings are to declared accounts journalCheckCommodities j -- and using declared commodities return j -- | Apply any auto posting rules to generate extra postings on this journal's transactions. journalAddAutoPostings :: Day -> BalancingOpts -> Journal -> Either String Journal journalAddAutoPostings d bopts = -- Balance all transactions without checking balance assertions, journalBalanceTransactions bopts{ignore_assertions_=True} -- then add the auto postings -- (Note adding auto postings after balancing means #893b fails; -- adding them before balancing probably means #893a, #928, #938 fail.) >=> journalModifyTransactions d -- | Generate periodic transactions from all periodic transaction rules in the journal. -- These transactions are added to the in-memory Journal (but not the on-disk file). -- -- The start & end date for generated periodic transactions are determined in -- a somewhat complicated way; see the hledger manual -> Periodic transactions. journalAddForecast :: Maybe DateSpan -> Journal -> Journal journalAddForecast Nothing j = j journalAddForecast (Just forecastspan) j = j{jtxns = jtxns j ++ forecasttxns} where forecasttxns = map (txnTieKnot . transactionTransformPostings (postingApplyCommodityStyles $ journalCommodityStyles j)) . filter (spanContainsDate forecastspan . tdate) . concatMap (`runPeriodicTransaction` forecastspan) $ jperiodictxns j setYear :: Year -> JournalParser m () setYear y = modify' (\j -> j{jparsedefaultyear=Just y}) getYear :: JournalParser m (Maybe Year) getYear = fmap jparsedefaultyear get -- | Get the decimal mark that has been specified for parsing, if any -- (eg by the CSV decimal-mark rule, or possibly a future journal directive). -- Return it as an AmountStyle that amount parsers can use. getDecimalMarkStyle :: JournalParser m (Maybe AmountStyle) getDecimalMarkStyle = do Journal{jparsedecimalmark} <- get let mdecmarkStyle = (\c -> Just $ amountstyle{asdecimalpoint=Just c}) =<< jparsedecimalmark return mdecmarkStyle setDefaultCommodityAndStyle :: (CommoditySymbol,AmountStyle) -> JournalParser m () setDefaultCommodityAndStyle cs = modify' (\j -> j{jparsedefaultcommodity=Just cs}) getDefaultCommodityAndStyle :: JournalParser m (Maybe (CommoditySymbol,AmountStyle)) getDefaultCommodityAndStyle = jparsedefaultcommodity `fmap` get -- | Get amount style associated with default currency. -- -- Returns 'AmountStyle' used to defined by a latest default commodity directive -- prior to current position within this file or its parents. getDefaultAmountStyle :: JournalParser m (Maybe AmountStyle) getDefaultAmountStyle = fmap snd <$> getDefaultCommodityAndStyle -- | Get the 'AmountStyle' declared by the most recently parsed (in the current or parent files, -- prior to the current position) commodity directive for the given commodity, if any. getAmountStyle :: CommoditySymbol -> JournalParser m (Maybe AmountStyle) getAmountStyle commodity = do Journal{jcommodities} <- get let mspecificStyle = M.lookup commodity jcommodities >>= cformat mdefaultStyle <- fmap snd <$> getDefaultCommodityAndStyle return $ listToMaybe $ catMaybes [mspecificStyle, mdefaultStyle] addDeclaredAccountTags :: AccountName -> [Tag] -> JournalParser m () addDeclaredAccountTags acct atags = modify' (\j -> j{jdeclaredaccounttags = M.insertWith (flip union) acct atags (jdeclaredaccounttags j)}) addDeclaredAccountType :: AccountName -> AccountType -> JournalParser m () addDeclaredAccountType acct atype = modify' (\j -> j{jdeclaredaccounttypes = M.insertWith (++) atype [acct] (jdeclaredaccounttypes j)}) pushParentAccount :: AccountName -> JournalParser m () pushParentAccount acct = modify' (\j -> j{jparseparentaccounts = acct : jparseparentaccounts j}) popParentAccount :: JournalParser m () popParentAccount = do j <- get case jparseparentaccounts j of [] -> unexpected (Tokens ('E' :| "nd of apply account block with no beginning")) (_:rest) -> put j{jparseparentaccounts=rest} getParentAccount :: JournalParser m AccountName getParentAccount = fmap (concatAccountNames . reverse . jparseparentaccounts) get addAccountAlias :: MonadState Journal m => AccountAlias -> m () addAccountAlias a = modify' (\(j@Journal{..}) -> j{jparsealiases=a:jparsealiases}) getAccountAliases :: MonadState Journal m => m [AccountAlias] getAccountAliases = fmap jparsealiases get clearAccountAliases :: MonadState Journal m => m () clearAccountAliases = modify' (\j -> j{jparsealiases=[]}) -- getTransactionCount :: MonadState Journal m => m Integer -- getTransactionCount = fmap jparsetransactioncount get -- -- setTransactionCount :: MonadState Journal m => Integer -> m () -- setTransactionCount i = modify' (\j -> j{jparsetransactioncount=i}) -- -- -- | Increment the transaction index by one and return the new value. -- incrementTransactionCount :: MonadState Journal m => m Integer -- incrementTransactionCount = do -- modify' (\j -> j{jparsetransactioncount=jparsetransactioncount j + 1}) -- getTransactionCount journalAddFile :: (FilePath,Text) -> Journal -> Journal journalAddFile f j@Journal{jfiles=fs} = j{jfiles=fs++[f]} -- append, unlike the other fields, even though we do a final reverse, -- to compensate for additional reversal due to including/monoid-concatting -- A version of `match` that is strict in the returned text match' :: TextParser m a -> TextParser m (Text, a) match' p = do (!txt, p) <- match p pure (txt, p) --- ** parsers --- *** transaction bits statusp :: TextParser m Status statusp = choice' [ skipNonNewlineSpaces >> char '*' >> return Cleared , skipNonNewlineSpaces >> char '!' >> return Pending , return Unmarked ] codep :: TextParser m Text codep = option "" $ do try $ do skipNonNewlineSpaces1 char '(' code <- takeWhileP Nothing $ \c -> c /= ')' && c /= '\n' char ')' "closing bracket ')' for transaction code" pure code -- | Parse possibly empty text until a semicolon or newline. -- Whitespace is preserved (for now - perhaps helps preserve alignment -- of same-line comments ?). descriptionp :: TextParser m Text descriptionp = noncommenttextp "description" --- *** dates -- | Parse a date in YYYY-MM-DD format. -- Slash (/) and period (.) are also allowed as separators. -- The year may be omitted if a default year has been set. -- Leading zeroes may be omitted. datep :: JournalParser m Day datep = do mYear <- getYear lift $ datep' mYear datep' :: Maybe Year -> TextParser m Day datep' mYear = do startOffset <- getOffset d1 <- yearorintp "year or month" sep <- datesepchar "date separator" d2 <- decimal "month or day" case d1 of Left y -> fullDate startOffset y sep d2 Right m -> partialDate startOffset mYear m sep d2 "full or partial date" where fullDate :: Int -> Year -> Char -> Month -> TextParser m Day fullDate startOffset year sep1 month = do sep2 <- satisfy isDateSepChar "date separator" day <- decimal "day" endOffset <- getOffset let dateStr = show year ++ [sep1] ++ show month ++ [sep2] ++ show day when (sep1 /= sep2) $ customFailure $ parseErrorAtRegion startOffset endOffset $ "invalid date: separators are different, should be the same" case fromGregorianValid year month day of Nothing -> customFailure $ parseErrorAtRegion startOffset endOffset $ "well-formed but invalid date: " ++ dateStr Just date -> pure $! date partialDate :: Int -> Maybe Year -> Month -> Char -> MonthDay -> TextParser m Day partialDate startOffset mYear month sep day = do endOffset <- getOffset case mYear of Just year -> case fromGregorianValid year month day of Nothing -> customFailure $ parseErrorAtRegion startOffset endOffset $ "well-formed but invalid date: " ++ dateStr Just date -> pure $! date where dateStr = show year ++ [sep] ++ show month ++ [sep] ++ show day Nothing -> customFailure $ parseErrorAtRegion startOffset endOffset $ "partial date "++dateStr++" found, but the current year is unknown" where dateStr = show month ++ [sep] ++ show day {-# INLINABLE datep' #-} -- | Parse a date and time in YYYY-MM-DD HH:MM[:SS][+-ZZZZ] format. -- Slash (/) and period (.) are also allowed as date separators. -- The year may be omitted if a default year has been set. -- Seconds are optional. -- The timezone is optional and ignored (the time is always interpreted as a local time). -- Leading zeroes may be omitted (except in a timezone). datetimep :: JournalParser m LocalTime datetimep = do mYear <- getYear lift $ datetimep' mYear datetimep' :: Maybe Year -> TextParser m LocalTime datetimep' mYear = do day <- datep' mYear skipNonNewlineSpaces1 time <- timeOfDay optional timeZone -- ignoring time zones pure $ LocalTime day time where timeOfDay :: TextParser m TimeOfDay timeOfDay = do off1 <- getOffset h' <- twoDigitDecimal "hour" off2 <- getOffset unless (h' >= 0 && h' <= 23) $ customFailure $ parseErrorAtRegion off1 off2 "invalid time (bad hour)" char ':' "':' (hour-minute separator)" off3 <- getOffset m' <- twoDigitDecimal "minute" off4 <- getOffset unless (m' >= 0 && m' <= 59) $ customFailure $ parseErrorAtRegion off3 off4 "invalid time (bad minute)" s' <- option 0 $ do char ':' "':' (minute-second separator)" off5 <- getOffset s' <- twoDigitDecimal "second" off6 <- getOffset unless (s' >= 0 && s' <= 59) $ customFailure $ parseErrorAtRegion off5 off6 "invalid time (bad second)" -- we do not support leap seconds pure s' pure $ TimeOfDay h' m' (fromIntegral s') twoDigitDecimal :: TextParser m Int twoDigitDecimal = do d1 <- digitToInt <$> digitChar d2 <- digitToInt <$> (digitChar "a second digit") pure $ d1*10 + d2 timeZone :: TextParser m String timeZone = do plusminus <- satisfy $ \c -> c == '-' || c == '+' fourDigits <- count 4 (digitChar "a digit (for a time zone)") pure $ plusminus:fourDigits secondarydatep :: Day -> TextParser m Day secondarydatep primaryDate = char '=' *> datep' (Just primaryYear) where primaryYear = first3 $ toGregorian primaryDate -- | Parse a year number or an Int. Years must contain at least four -- digits. yearorintp :: TextParser m (Either Year Int) yearorintp = do yearOrMonth <- takeWhile1P (Just "digit") isDigit let n = readDecimal yearOrMonth return $ if T.length yearOrMonth >= 4 then Left n else Right (fromInteger n) --- *** account names -- | Parse an account name (plus one following space if present), -- then apply any parent account prefix and/or account aliases currently in effect, -- in that order. (Ie first add the parent account prefix, then rewrite with aliases). -- This calls error if any account alias with an invalid regular expression exists. modifiedaccountnamep :: JournalParser m AccountName modifiedaccountnamep = do parent <- getParentAccount aliases <- getAccountAliases -- off1 <- getOffset a <- lift accountnamep -- off2 <- getOffset -- XXX or accountNameApplyAliasesMemo ? doesn't seem to make a difference (retest that function) case accountNameApplyAliases aliases $ joinAccountNames parent a of Right a' -> return $! a' -- should not happen, regexaliasp will have displayed a better error already: -- (XXX why does customFailure cause error to be displayed there, but not here ?) -- Left e -> customFailure $! parseErrorAtRegion off1 off2 err Left e -> error' err -- PARTIAL: where err = "problem in account alias applied to "++T.unpack a++": "++e -- | Parse an account name, plus one following space if present. -- Account names have one or more parts separated by the account separator character, -- and are terminated by two or more spaces (or end of input). -- Each part is at least one character long, may have single spaces inside it, -- and starts with a non-whitespace. -- Note, this means "{account}", "%^!" and ";comment" are all accepted -- (parent parsers usually prevent/consume the last). -- It should have required parts to start with an alphanumeric; -- for now it remains as-is for backwards compatibility. accountnamep :: TextParser m AccountName accountnamep = singlespacedtext1p -- | Parse possibly empty text, including whitespace, -- until a comment start (semicolon) or newline. noncommenttextp :: TextParser m T.Text noncommenttextp = takeWhileP Nothing (\c -> not $ isSameLineCommentStart c || isNewline c) -- | Parse non-empty text, including whitespace, -- until a comment start (semicolon) or newline. noncommenttext1p :: TextParser m T.Text noncommenttext1p = takeWhile1P Nothing (\c -> not $ isSameLineCommentStart c || isNewline c) -- | Parse non-empty, single-spaced text starting and ending with non-whitespace, -- until a double space or newline. singlespacedtext1p :: TextParser m T.Text singlespacedtext1p = singlespacedtextsatisfying1p (const True) -- | Parse non-empty, single-spaced text starting and ending with non-whitespace, -- until a comment start (semicolon), double space, or newline. singlespacednoncommenttext1p :: TextParser m T.Text singlespacednoncommenttext1p = singlespacedtextsatisfying1p (not . isSameLineCommentStart) -- | Parse non-empty, single-spaced text starting and ending with non-whitespace, -- where all characters satisfy the given predicate. singlespacedtextsatisfying1p :: (Char -> Bool) -> TextParser m T.Text singlespacedtextsatisfying1p pred = do firstPart <- partp otherParts <- many $ try $ singlespacep *> partp pure $! T.unwords $ firstPart : otherParts where partp = takeWhile1P Nothing (\c -> pred c && not (isSpace c)) -- | Parse one non-newline whitespace character that is not followed by another one. singlespacep :: TextParser m () singlespacep = spacenonewline *> notFollowedBy spacenonewline --- *** amounts -- | Parse whitespace then an amount, with an optional left or right -- currency symbol and optional price, or return the special -- "missing" marker amount. spaceandamountormissingp :: JournalParser m MixedAmount spaceandamountormissingp = option missingmixedamt $ try $ do lift $ skipNonNewlineSpaces1 mixedAmount <$> amountp -- | Parse a single-commodity amount, with optional symbol on the left -- or right, followed by, in any order: an optional transaction price, -- an optional ledger-style lot price, and/or an optional ledger-style -- lot date. A lot price and lot date will be ignored. -- -- To parse the amount's quantity (number) we need to know which character -- represents a decimal mark. We find it in one of three ways: -- -- 1. If a decimal mark has been set explicitly in the journal parse state, -- we use that -- -- 2. Or if the journal has a commodity declaration for the amount's commodity, -- we get the decimal mark from that -- -- 3. Otherwise we will parse any valid decimal mark appearing in the -- number, as long as the number appears well formed. -- -- Note 3 is the default zero-config case; it means we automatically handle -- files with any supported decimal mark, but it also allows different decimal marks -- in different amounts, which is a bit too loose. There's an open issue. amountp :: JournalParser m Amount amountp = amountpwithmultiplier False amountpwithmultiplier :: Bool -> JournalParser m Amount amountpwithmultiplier mult = label "amount" $ do let spaces = lift $ skipNonNewlineSpaces amount <- amountwithoutpricep mult <* spaces (mprice, _elotprice, _elotdate) <- runPermutation $ (,,) <$> toPermutationWithDefault Nothing (Just <$> priceamountp amount <* spaces) <*> toPermutationWithDefault Nothing (Just <$> lotpricep <* spaces) <*> toPermutationWithDefault Nothing (Just <$> lotdatep <* spaces) pure $ amount { aprice = mprice } amountpnolotpricesp :: JournalParser m Amount amountpnolotpricesp = label "amount" $ do let spaces = lift $ skipNonNewlineSpaces amount <- amountwithoutpricep False spaces mprice <- optional $ priceamountp amount <* spaces pure $ amount { aprice = mprice } amountwithoutpricep :: Bool -> JournalParser m Amount amountwithoutpricep mult = do sign <- lift signp leftsymbolamountp sign <|> rightornosymbolamountp sign where leftsymbolamountp :: (Decimal -> Decimal) -> JournalParser m Amount leftsymbolamountp sign = label "amount" $ do c <- lift commoditysymbolp mdecmarkStyle <- getDecimalMarkStyle mcommodityStyle <- getAmountStyle c -- XXX amounts of this commodity in periodic transaction rules and auto posting rules ? #1461 let suggestedStyle = mdecmarkStyle <|> mcommodityStyle commodityspaced <- lift skipNonNewlineSpaces' sign2 <- lift $ signp offBeforeNum <- getOffset ambiguousRawNum <- lift rawnumberp mExponent <- lift $ optional $ try exponentp offAfterNum <- getOffset let numRegion = (offBeforeNum, offAfterNum) (q,prec,mdec,mgrps) <- lift $ interpretNumber numRegion suggestedStyle ambiguousRawNum mExponent let s = amountstyle{ascommodityside=L, ascommodityspaced=commodityspaced, asprecision=prec, asdecimalpoint=mdec, asdigitgroups=mgrps} return nullamt{acommodity=c, aquantity=sign (sign2 q), astyle=s, aprice=Nothing} rightornosymbolamountp :: (Decimal -> Decimal) -> JournalParser m Amount rightornosymbolamountp sign = label "amount" $ do offBeforeNum <- getOffset ambiguousRawNum <- lift rawnumberp mExponent <- lift $ optional $ try exponentp offAfterNum <- getOffset let numRegion = (offBeforeNum, offAfterNum) mSpaceAndCommodity <- lift $ optional $ try $ (,) <$> skipNonNewlineSpaces' <*> commoditysymbolp case mSpaceAndCommodity of -- right symbol amount Just (commodityspaced, c) -> do mdecmarkStyle <- getDecimalMarkStyle mcommodityStyle <- getAmountStyle c -- XXX amounts of this commodity in periodic transaction rules and auto posting rules ? #1461 let msuggestedStyle = mdecmarkStyle <|> mcommodityStyle (q,prec,mdec,mgrps) <- lift $ interpretNumber numRegion msuggestedStyle ambiguousRawNum mExponent let s = amountstyle{ascommodityside=R, ascommodityspaced=commodityspaced, asprecision=prec, asdecimalpoint=mdec, asdigitgroups=mgrps} return nullamt{acommodity=c, aquantity=sign q, astyle=s, aprice=Nothing} -- no symbol amount Nothing -> do -- look for a number style to use when parsing, based on -- these things we've already parsed, in this order of preference: mdecmarkStyle <- getDecimalMarkStyle -- a decimal-mark CSV rule mcommodityStyle <- getAmountStyle "" -- a commodity directive for the no-symbol commodity mdefaultStyle <- getDefaultAmountStyle -- a D default commodity directive -- XXX no-symbol amounts in periodic transaction rules and auto posting rules ? #1461 let msuggestedStyle = mdecmarkStyle <|> mcommodityStyle <|> mdefaultStyle (q,prec,mdec,mgrps) <- lift $ interpretNumber numRegion msuggestedStyle ambiguousRawNum mExponent -- if a default commodity has been set, apply it and its style to this amount -- (unless it's a multiplier in an automated posting) defcs <- getDefaultCommodityAndStyle let (c,s) = case (mult, defcs) of (False, Just (defc,defs)) -> (defc, defs{asprecision=max (asprecision defs) prec}) _ -> ("", amountstyle{asprecision=prec, asdecimalpoint=mdec, asdigitgroups=mgrps}) return nullamt{acommodity=c, aquantity=sign q, astyle=s, aprice=Nothing} -- For reducing code duplication. Doesn't parse anything. Has the type -- of a parser only in order to throw parse errors (for convenience). interpretNumber :: (Int, Int) -- offsets -> Maybe AmountStyle -> Either AmbiguousNumber RawNumber -> Maybe Integer -> TextParser m (Quantity, AmountPrecision, Maybe Char, Maybe DigitGroupStyle) interpretNumber posRegion msuggestedStyle ambiguousNum mExp = let rawNum = either (disambiguateNumber msuggestedStyle) id ambiguousNum in case fromRawNumber rawNum mExp of Left errMsg -> customFailure $ uncurry parseErrorAtRegion posRegion errMsg Right (q,p,d,g) -> pure (q, Precision p, d, g) -- | Try to parse an amount from a string amountp'' :: String -> Either HledgerParseErrors Amount amountp'' s = runParser (evalStateT (amountp <* eof) nulljournal) "" (T.pack s) -- | Parse an amount from a string, or get an error. amountp' :: String -> Amount amountp' s = case amountp'' s of Right amt -> amt Left err -> error' $ show err -- PARTIAL: XXX should throwError -- | Parse a mixed amount from a string, or get an error. mamountp' :: String -> MixedAmount mamountp' = mixedAmount . amountp' -- | Parse a minus or plus sign followed by zero or more spaces, -- or nothing, returning a function that negates or does nothing. signp :: Num a => TextParser m (a -> a) signp = ((char '-' $> negate <|> char '+' $> id) <* skipNonNewlineSpaces) <|> pure id commoditysymbolp :: TextParser m CommoditySymbol commoditysymbolp = quotedcommoditysymbolp <|> simplecommoditysymbolp "commodity symbol" quotedcommoditysymbolp :: TextParser m CommoditySymbol quotedcommoditysymbolp = between (char '"') (char '"') $ takeWhile1P Nothing f where f c = c /= ';' && c /= '\n' && c /= '\"' simplecommoditysymbolp :: TextParser m CommoditySymbol simplecommoditysymbolp = takeWhile1P Nothing (not . isNonsimpleCommodityChar) priceamountp :: Amount -> JournalParser m AmountPrice priceamountp baseAmt = label "transaction price" $ do -- https://www.ledger-cli.org/3.0/doc/ledger3.html#Virtual-posting-costs parenthesised <- option False $ char '(' >> pure True char '@' totalPrice <- char '@' $> True <|> pure False when parenthesised $ void $ char ')' lift skipNonNewlineSpaces priceAmount <- amountwithoutpricep False -- "unpriced amount (specifying a price)" let amtsign' = signum $ aquantity baseAmt amtsign = if amtsign' == 0 then 1 else amtsign' pure $ if totalPrice then TotalPrice priceAmount{aquantity=amtsign * aquantity priceAmount} else UnitPrice priceAmount balanceassertionp :: JournalParser m BalanceAssertion balanceassertionp = do sourcepos <- getSourcePos char '=' istotal <- fmap isJust $ optional $ try $ char '=' isinclusive <- fmap isJust $ optional $ try $ char '*' lift skipNonNewlineSpaces -- this amount can have a price; balance assertions ignore it, -- but balance assignments will use it a <- amountpnolotpricesp "amount (for a balance assertion or assignment)" return BalanceAssertion { baamount = a , batotal = istotal , bainclusive = isinclusive , baposition = sourcepos } -- Parse a Ledger-style fixed {=UNITPRICE} or non-fixed {UNITPRICE} -- or fixed {{=TOTALPRICE}} or non-fixed {{TOTALPRICE}} lot price, -- and ignore it. -- https://www.ledger-cli.org/3.0/doc/ledger3.html#Fixing-Lot-Prices . lotpricep :: JournalParser m () lotpricep = label "ledger-style lot price" $ do char '{' doublebrace <- option False $ char '{' >> pure True _fixed <- fmap isJust $ optional $ lift skipNonNewlineSpaces >> char '=' lift skipNonNewlineSpaces _a <- amountwithoutpricep False lift skipNonNewlineSpaces char '}' when (doublebrace) $ void $ char '}' -- Parse a Ledger-style lot date [DATE], and ignore it. -- https://www.ledger-cli.org/3.0/doc/ledger3.html#Fixing-Lot-Prices . lotdatep :: JournalParser m () lotdatep = (do char '[' lift skipNonNewlineSpaces _d <- datep lift skipNonNewlineSpaces char ']' return () ) "ledger-style lot date" -- | Parse a string representation of a number for its value and display -- attributes. -- -- Some international number formats are accepted, eg either period or comma -- may be used for the decimal mark, and the other of these may be used for -- separating digit groups in the integer part. See -- http://en.wikipedia.org/wiki/Decimal_separator for more examples. -- -- This returns: the parsed numeric value, the precision (number of digits -- seen following the decimal mark), the decimal mark character used if any, -- and the digit group style if any. -- numberp :: Maybe AmountStyle -> TextParser m (Quantity, Word8, Maybe Char, Maybe DigitGroupStyle) numberp suggestedStyle = label "number" $ do -- a number is an optional sign followed by a sequence of digits possibly -- interspersed with periods, commas, or both -- dbgparse 0 "numberp" sign <- signp rawNum <- either (disambiguateNumber suggestedStyle) id <$> rawnumberp mExp <- optional $ try $ exponentp dbg7 "numberp suggestedStyle" suggestedStyle `seq` return () case dbg7 "numberp quantity,precision,mdecimalpoint,mgrps" $ fromRawNumber rawNum mExp of Left errMsg -> Fail.fail errMsg Right (q, p, d, g) -> pure (sign q, p, d, g) exponentp :: TextParser m Integer exponentp = char' 'e' *> signp <*> decimal "exponent" -- | Interpret a raw number as a decimal number. -- -- Returns: -- - the decimal number -- - the precision (number of digits after the decimal point) -- - the decimal point character, if any -- - the digit group style, if any (digit group character and sizes of digit groups) fromRawNumber :: RawNumber -> Maybe Integer -> Either String (Quantity, Word8, Maybe Char, Maybe DigitGroupStyle) fromRawNumber (WithSeparators{}) (Just _) = Left "invalid number: digit separators and exponents may not be used together" fromRawNumber raw mExp = do (quantity, precision) <- toQuantity (fromMaybe 0 mExp) (digitGroup raw) (decimalGroup raw) return (quantity, precision, mDecPt raw, digitGroupStyle raw) where toQuantity :: Integer -> DigitGrp -> DigitGrp -> Either String (Quantity, Word8) toQuantity e preDecimalGrp postDecimalGrp | precision < 0 = Right (Decimal 0 (digitGrpNum * 10^(-precision)), 0) | precision < 256 = Right (Decimal precision8 digitGrpNum, precision8) | otherwise = Left "invalid number: numbers with more than 255 decimal places are currently not supported" where digitGrpNum = digitGroupNumber $ preDecimalGrp <> postDecimalGrp precision = toInteger (digitGroupLength postDecimalGrp) - e precision8 = fromIntegral precision :: Word8 mDecPt (NoSeparators _ mDecimals) = fst <$> mDecimals mDecPt (WithSeparators _ _ mDecimals) = fst <$> mDecimals decimalGroup (NoSeparators _ mDecimals) = maybe mempty snd mDecimals decimalGroup (WithSeparators _ _ mDecimals) = maybe mempty snd mDecimals digitGroup (NoSeparators digitGrp _) = digitGrp digitGroup (WithSeparators _ digitGrps _) = mconcat digitGrps digitGroupStyle (NoSeparators _ _) = Nothing digitGroupStyle (WithSeparators sep grps _) = Just . DigitGroups sep $ groupSizes grps -- Outputs digit group sizes from least significant to most significant groupSizes :: [DigitGrp] -> [Word8] groupSizes digitGrps = reverse $ case map (fromIntegral . digitGroupLength) digitGrps of (a:b:cs) | a < b -> b:cs gs -> gs disambiguateNumber :: Maybe AmountStyle -> AmbiguousNumber -> RawNumber disambiguateNumber msuggestedStyle (AmbiguousNumber grp1 sep grp2) = -- If present, use the suggested style to disambiguate; -- otherwise, assume that the separator is a decimal point where possible. if isDecimalMark sep && maybe True (sep `isValidDecimalBy`) msuggestedStyle then NoSeparators grp1 (Just (sep, grp2)) else WithSeparators sep [grp1, grp2] Nothing where isValidDecimalBy :: Char -> AmountStyle -> Bool isValidDecimalBy c = \case AmountStyle{asdecimalpoint = Just d} -> d == c AmountStyle{asdigitgroups = Just (DigitGroups g _)} -> g /= c AmountStyle{asprecision = Precision 0} -> False _ -> True -- | Parse and interpret the structure of a number without external hints. -- Numbers are digit strings, possibly separated into digit groups by one -- of two types of separators. (1) Numbers may optionally have a decimal -- mark, which may be either a period or comma. (2) Numbers may -- optionally contain digit group marks, which must all be either a -- period, a comma, or a space. -- -- It is our task to deduce the characters used as decimal mark and -- digit group mark, based on the allowed syntax. For instance, we -- make use of the fact that a decimal mark can occur at most once and -- must be to the right of all digit group marks. -- -- >>> parseTest rawnumberp "1,234,567.89" -- Right (WithSeparators ',' ["1","234","567"] (Just ('.',"89"))) -- >>> parseTest rawnumberp "1,000" -- Left (AmbiguousNumber "1" ',' "000") -- >>> parseTest rawnumberp "1 000" -- Right (WithSeparators ' ' ["1","000"] Nothing) -- rawnumberp :: TextParser m (Either AmbiguousNumber RawNumber) rawnumberp = label "number" $ do rawNumber <- fmap Right leadingDecimalPt <|> leadingDigits -- Guard against mistyped numbers mExtraDecimalSep <- optional $ lookAhead $ satisfy isDecimalMark when (isJust mExtraDecimalSep) $ Fail.fail "invalid number (invalid use of separator)" mExtraFragment <- optional $ lookAhead $ try $ char ' ' *> getOffset <* digitChar case mExtraFragment of Just off -> customFailure $ parseErrorAt off "invalid number (excessive trailing digits)" Nothing -> pure () return $ dbg7 "rawnumberp" rawNumber where leadingDecimalPt :: TextParser m RawNumber leadingDecimalPt = do decPt <- satisfy isDecimalMark decGrp <- digitgroupp pure $ NoSeparators mempty (Just (decPt, decGrp)) leadingDigits :: TextParser m (Either AmbiguousNumber RawNumber) leadingDigits = do grp1 <- digitgroupp withSeparators grp1 <|> fmap Right (trailingDecimalPt grp1) <|> pure (Right $ NoSeparators grp1 Nothing) withSeparators :: DigitGrp -> TextParser m (Either AmbiguousNumber RawNumber) withSeparators grp1 = do (sep, grp2) <- try $ (,) <$> satisfy isDigitSeparatorChar <*> digitgroupp grps <- many $ try $ char sep *> digitgroupp let digitGroups = grp1 : grp2 : grps fmap Right (withDecimalPt sep digitGroups) <|> pure (withoutDecimalPt grp1 sep grp2 grps) withDecimalPt :: Char -> [DigitGrp] -> TextParser m RawNumber withDecimalPt digitSep digitGroups = do decPt <- satisfy $ \c -> isDecimalMark c && c /= digitSep decDigitGrp <- option mempty digitgroupp pure $ WithSeparators digitSep digitGroups (Just (decPt, decDigitGrp)) withoutDecimalPt :: DigitGrp -> Char -> DigitGrp -> [DigitGrp] -> Either AmbiguousNumber RawNumber withoutDecimalPt grp1 sep grp2 grps | null grps && isDecimalMark sep = Left $ AmbiguousNumber grp1 sep grp2 | otherwise = Right $ WithSeparators sep (grp1:grp2:grps) Nothing trailingDecimalPt :: DigitGrp -> TextParser m RawNumber trailingDecimalPt grp1 = do decPt <- satisfy isDecimalMark pure $ NoSeparators grp1 (Just (decPt, mempty)) isDigitSeparatorChar :: Char -> Bool isDigitSeparatorChar c = isDecimalMark c || c == ' ' -- | Some kinds of number literal we might parse. data RawNumber = NoSeparators DigitGrp (Maybe (Char, DigitGrp)) -- ^ A number with no digit group marks (eg 100), -- or with a leading or trailing comma or period -- which (apparently) we interpret as a decimal mark (like 100. or .100) | WithSeparators Char [DigitGrp] (Maybe (Char, DigitGrp)) -- ^ A number with identifiable digit group marks -- (eg 1,000,000 or 1,000.50 or 1 000) deriving (Show, Eq) -- | Another kind of number literal: this one contains either a digit -- group separator or a decimal mark, we're not sure which (eg 1,000 or 100.50). data AmbiguousNumber = AmbiguousNumber DigitGrp Char DigitGrp deriving (Show, Eq) -- | Description of a single digit group in a number literal. -- "Thousands" is one well known digit grouping, but there are others. data DigitGrp = DigitGrp { digitGroupLength :: !Word, -- ^ The number of digits in this group. -- This is Word to avoid the need to do overflow -- checking for the Semigroup instance of DigitGrp. digitGroupNumber :: !Integer -- ^ The natural number formed by this group's digits. This should always be positive. } deriving (Eq) -- | A custom show instance, showing digit groups as the parser saw them. instance Show DigitGrp where show (DigitGrp len num) = "\"" ++ padding ++ numStr ++ "\"" where numStr = show num padding = genericReplicate (toInteger len - toInteger (length numStr)) '0' instance Sem.Semigroup DigitGrp where DigitGrp l1 n1 <> DigitGrp l2 n2 = DigitGrp (l1 + l2) (n1 * 10^l2 + n2) instance Monoid DigitGrp where mempty = DigitGrp 0 0 mappend = (Sem.<>) digitgroupp :: TextParser m DigitGrp digitgroupp = label "digits" $ makeGroup <$> takeWhile1P (Just "digit") isDigit where makeGroup = uncurry DigitGrp . T.foldl' step (0, 0) step (!l, !a) c = (l+1, a*10 + fromIntegral (digitToInt c)) --- *** comments multilinecommentp :: TextParser m () multilinecommentp = startComment *> anyLine `skipManyTill` endComment where startComment = string "comment" *> trailingSpaces endComment = eof <|> string "end comment" *> trailingSpaces trailingSpaces = skipNonNewlineSpaces <* newline anyLine = void $ takeWhileP Nothing (/='\n') *> newline {-# INLINABLE multilinecommentp #-} -- | A blank or comment line in journal format: a line that's empty or -- containing only whitespace or whose first non-whitespace character -- is semicolon, hash, or star. emptyorcommentlinep :: TextParser m () emptyorcommentlinep = do skipNonNewlineSpaces skiplinecommentp <|> void newline where skiplinecommentp :: TextParser m () skiplinecommentp = do satisfy isLineCommentStart void $ takeWhileP Nothing (/= '\n') optional newline pure () {-# INLINABLE emptyorcommentlinep #-} -- | Is this a character that, as the first non-whitespace on a line, -- starts a comment line ? isLineCommentStart :: Char -> Bool isLineCommentStart '#' = True isLineCommentStart '*' = True isLineCommentStart ';' = True isLineCommentStart _ = False -- | Is this a character that, appearing anywhere within a line, -- starts a comment ? isSameLineCommentStart :: Char -> Bool isSameLineCommentStart ';' = True isSameLineCommentStart _ = False -- A parser combinator for parsing (possibly multiline) comments -- following journal items. -- -- Several journal items may be followed by comments, which begin with -- semicolons and extend to the end of the line. Such comments may span -- multiple lines, but comment lines below the journal item must be -- preceded by leading whitespace. -- -- This parser combinator accepts a parser that consumes all input up -- until the next newline. This parser should extract the "content" from -- comments. The resulting parser returns this content plus the raw text -- of the comment itself. -- -- See followingcommentp for tests. -- followingcommentp' :: (Monoid a, Show a) => TextParser m a -> TextParser m (Text, a) followingcommentp' contentp = do skipNonNewlineSpaces -- there can be 0 or 1 sameLine sameLine <- try headerp *> ((:[]) <$> match' contentp) <|> pure [] _ <- eolof -- there can be 0 or more nextLines nextLines <- many $ try (skipNonNewlineSpaces1 *> headerp) *> match' contentp <* eolof let -- if there's just a next-line comment, insert an empty same-line comment -- so the next-line comment doesn't get rendered as a same-line comment. sameLine' | null sameLine && not (null nextLines) = [("",mempty)] | otherwise = sameLine (texts, contents) = unzip $ sameLine' ++ nextLines strippedCommentText = T.unlines $ map T.strip texts commentContent = mconcat contents pure (strippedCommentText, commentContent) where headerp = char ';' *> skipNonNewlineSpaces {-# INLINABLE followingcommentp' #-} -- | Parse the text of a (possibly multiline) comment following a journal item. -- -- >>> rtp followingcommentp "" -- no comment -- Right "" -- >>> rtp followingcommentp ";" -- just a (empty) same-line comment. newline is added -- Right "\n" -- >>> rtp followingcommentp "; \n" -- Right "\n" -- >>> rtp followingcommentp ";\n ;\n" -- a same-line and a next-line comment -- Right "\n\n" -- >>> rtp followingcommentp "\n ;\n" -- just a next-line comment. Insert an empty same-line comment so the next-line comment doesn't become a same-line comment. -- Right "\n\n" -- followingcommentp :: TextParser m Text followingcommentp = fst <$> followingcommentp' (void $ takeWhileP Nothing (/= '\n')) -- XXX support \r\n ? {-# INLINABLE followingcommentp #-} -- | Parse a transaction comment and extract its tags. -- -- The first line of a transaction may be followed by comments, which -- begin with semicolons and extend to the end of the line. Transaction -- comments may span multiple lines, but comment lines below the -- transaction must be preceded by leading whitespace. -- -- 2000/1/1 ; a transaction comment starting on the same line ... -- ; extending to the next line -- account1 $1 -- account2 -- -- Tags are name-value pairs. -- -- >>> let getTags (_,tags) = tags -- >>> let parseTags = fmap getTags . rtp transactioncommentp -- -- >>> parseTags "; name1: val1, name2:all this is value2" -- Right [("name1","val1"),("name2","all this is value2")] -- -- A tag's name must be immediately followed by a colon, without -- separating whitespace. The corresponding value consists of all the text -- following the colon up until the next colon or newline, stripped of -- leading and trailing whitespace. -- transactioncommentp :: TextParser m (Text, [Tag]) transactioncommentp = followingcommentp' commenttagsp {-# INLINABLE transactioncommentp #-} commenttagsp :: TextParser m [Tag] commenttagsp = do tagName <- (last . T.split isSpace) <$> takeWhileP Nothing (\c -> c /= ':' && c /= '\n') atColon tagName <|> pure [] -- if not ':', then either '\n' or EOF where atColon :: Text -> TextParser m [Tag] atColon name = char ':' *> do if T.null name then commenttagsp else do skipNonNewlineSpaces val <- tagValue let tag = (name, val) (tag:) <$> commenttagsp tagValue :: TextParser m Text tagValue = do val <- T.strip <$> takeWhileP Nothing (\c -> c /= ',' && c /= '\n') _ <- optional $ char ',' pure val {-# INLINABLE commenttagsp #-} -- | Parse a posting comment and extract its tags and dates. -- -- Postings may be followed by comments, which begin with semicolons and -- extend to the end of the line. Posting comments may span multiple -- lines, but comment lines below the posting must be preceded by -- leading whitespace. -- -- 2000/1/1 -- account1 $1 ; a posting comment starting on the same line ... -- ; extending to the next line -- -- account2 -- ; a posting comment beginning on the next line -- -- Tags are name-value pairs. -- -- >>> let getTags (_,tags,_,_) = tags -- >>> let parseTags = fmap getTags . rtp (postingcommentp Nothing) -- -- >>> parseTags "; name1: val1, name2:all this is value2" -- Right [("name1","val1"),("name2","all this is value2")] -- -- A tag's name must be immediately followed by a colon, without -- separating whitespace. The corresponding value consists of all the text -- following the colon up until the next colon or newline, stripped of -- leading and trailing whitespace. -- -- Posting dates may be expressed with "date"/"date2" tags or with -- bracketed date syntax. Posting dates will inherit their year from the -- transaction date if the year is not specified. We throw parse errors on -- invalid dates. -- -- >>> let getDates (_,_,d1,d2) = (d1, d2) -- >>> let parseDates = fmap getDates . rtp (postingcommentp (Just 2000)) -- -- >>> parseDates "; date: 1/2, date2: 1999/12/31" -- Right (Just 2000-01-02,Just 1999-12-31) -- >>> parseDates "; [1/2=1999/12/31]" -- Right (Just 2000-01-02,Just 1999-12-31) -- -- Example: tags, date tags, and bracketed dates -- >>> rtp (postingcommentp (Just 2000)) "; a:b, date:3/4, [=5/6]" -- Right ("a:b, date:3/4, [=5/6]\n",[("a","b"),("date","3/4")],Just 2000-03-04,Just 2000-05-06) -- -- Example: extraction of dates from date tags ignores trailing text -- >>> rtp (postingcommentp (Just 2000)) "; date:3/4=5/6" -- Right ("date:3/4=5/6\n",[("date","3/4=5/6")],Just 2000-03-04,Nothing) -- postingcommentp :: Maybe Year -> TextParser m (Text, [Tag], Maybe Day, Maybe Day) postingcommentp mYear = do (commentText, (tags, dateTags)) <- followingcommentp' (commenttagsanddatesp mYear) let mdate = snd <$> find ((=="date") .fst) dateTags mdate2 = snd <$> find ((=="date2").fst) dateTags pure (commentText, tags, mdate, mdate2) {-# INLINABLE postingcommentp #-} commenttagsanddatesp :: Maybe Year -> TextParser m ([Tag], [DateTag]) commenttagsanddatesp mYear = do (txt, dateTags) <- match $ readUpTo ':' -- next char is either ':' or '\n' (or EOF) let tagName = last (T.split isSpace txt) (fmap.second) (dateTags++) (atColon tagName) <|> pure ([], dateTags) -- if not ':', then either '\n' or EOF where readUpTo :: Char -> TextParser m [DateTag] readUpTo end = do void $ takeWhileP Nothing (\c -> c /= end && c /= '\n' && c /= '[') -- if not '[' then ':' or '\n' or EOF atBracket (readUpTo end) <|> pure [] atBracket :: TextParser m [DateTag] -> TextParser m [DateTag] atBracket cont = do -- Uses the fact that bracketed date-tags cannot contain newlines dateTags <- option [] $ lookAhead (bracketeddatetagsp mYear) _ <- char '[' dateTags' <- cont pure $ dateTags ++ dateTags' atColon :: Text -> TextParser m ([Tag], [DateTag]) atColon name = char ':' *> do skipNonNewlineSpaces (tags, dateTags) <- case name of "" -> pure ([], []) "date" -> dateValue name "date2" -> dateValue name _ -> tagValue name _ <- optional $ char ',' bimap (tags++) (dateTags++) <$> commenttagsanddatesp mYear dateValue :: Text -> TextParser m ([Tag], [DateTag]) dateValue name = do (txt, (date, dateTags)) <- match' $ do date <- datep' mYear dateTags <- readUpTo ',' pure (date, dateTags) let val = T.strip txt pure $ ( [(name, val)] , (name, date) : dateTags ) tagValue :: Text -> TextParser m ([Tag], [DateTag]) tagValue name = do (txt, dateTags) <- match' $ readUpTo ',' let val = T.strip txt pure $ ( [(name, val)] , dateTags ) {-# INLINABLE commenttagsanddatesp #-} -- | Parse Ledger-style bracketed posting dates ([DATE=DATE2]), as -- "date" and/or "date2" tags. Anything that looks like an attempt at -- this (a square-bracketed sequence of 0123456789/-.= containing at -- least one digit and one date separator) is also parsed, and will -- throw an appropriate error. -- -- The dates are parsed in full here so that errors are reported in -- the right position. A missing year in DATE can be inferred if a -- default date is provided. A missing year in DATE2 will be inferred -- from DATE. -- -- >>> either (Left . customErrorBundlePretty) Right $ rtp (bracketeddatetagsp Nothing) "[2016/1/2=3/4]" -- Right [("date",2016-01-02),("date2",2016-03-04)] -- -- >>> either (Left . customErrorBundlePretty) Right $ rtp (bracketeddatetagsp Nothing) "[1]" -- Left ...not a bracketed date... -- -- >>> either (Left . customErrorBundlePretty) Right $ rtp (bracketeddatetagsp Nothing) "[2016/1/32]" -- Left ...1:2:...well-formed but invalid date: 2016/1/32... -- -- >>> either (Left . customErrorBundlePretty) Right $ rtp (bracketeddatetagsp Nothing) "[1/31]" -- Left ...1:2:...partial date 1/31 found, but the current year is unknown... -- -- >>> either (Left . customErrorBundlePretty) Right $ rtp (bracketeddatetagsp Nothing) "[0123456789/-.=/-.=]" -- Left ...1:13:...expecting month or day... -- bracketeddatetagsp :: Maybe Year -> TextParser m [(TagName, Day)] bracketeddatetagsp mYear1 = do -- dbgparse 0 "bracketeddatetagsp" try $ do s <- lookAhead $ between (char '[') (char ']') $ takeWhile1P Nothing isBracketedDateChar unless (T.any isDigit s && T.any isDateSepChar s) $ Fail.fail "not a bracketed date" -- Looks sufficiently like a bracketed date to commit to parsing a date between (char '[') (char ']') $ do md1 <- optional $ datep' mYear1 let mYear2 = fmap readYear md1 <|> mYear1 md2 <- optional $ char '=' *> datep' mYear2 pure $ catMaybes [("date",) <$> md1, ("date2",) <$> md2] where readYear = first3 . toGregorian isBracketedDateChar c = isDigit c || isDateSepChar c || c == '=' {-# INLINABLE bracketeddatetagsp #-} -- | Get the account name aliases from options, if any. aliasesFromOpts :: InputOpts -> [AccountAlias] aliasesFromOpts = map (\a -> fromparse $ runParser accountaliasp ("--alias "++quoteIfNeeded a) $ T.pack a) . aliases_ accountaliasp :: TextParser m AccountAlias accountaliasp = regexaliasp <|> basicaliasp basicaliasp :: TextParser m AccountAlias basicaliasp = do -- dbgparse 0 "basicaliasp" old <- rstrip <$> (some $ noneOf ("=" :: [Char])) char '=' skipNonNewlineSpaces new <- rstrip <$> anySingle `manyTill` eolof -- eol in journal, eof in command lines, normally return $ BasicAlias (T.pack old) (T.pack new) regexaliasp :: TextParser m AccountAlias regexaliasp = do -- dbgparse 0 "regexaliasp" (off1, off2, re) <- between (char '/') (char '/') $ do off1 <- getOffset re <- fmap T.concat . some $ (T.singleton <$> noneOf ("/\\\n\r" :: [Char])) -- paranoid: don't try to read past line end <|> string "\\/" -- allow escaping forward slashes <|> (liftM2 T.cons (char '\\') (T.singleton <$> anySingle)) -- Otherwise leave backslashes in off2 <- getOffset return (off1, off2, re) skipNonNewlineSpaces char '=' skipNonNewlineSpaces repl <- anySingle `manyTill` eolof case toRegexCI re of Right r -> return $! RegexAlias r repl Left e -> customFailure $! parseErrorAtRegion off1 off2 e --- ** tests tests_Common = testGroup "Common" [ testGroup "amountp" [ testCase "basic" $ assertParseEq amountp "$47.18" (usd 47.18) ,testCase "ends with decimal mark" $ assertParseEq amountp "$1." (usd 1 `withPrecision` Precision 0) ,testCase "unit price" $ assertParseEq amountp "$10 @ €0.5" -- not precise enough: -- (usd 10 `withPrecision` 0 `at` (eur 0.5 `withPrecision` 1)) -- `withStyle` asdecimalpoint=Just '.' amount{ acommodity="$" ,aquantity=10 -- need to test internal precision with roundTo ? I think not ,astyle=amountstyle{asprecision=Precision 0, asdecimalpoint=Nothing} ,aprice=Just $ UnitPrice $ amount{ acommodity="€" ,aquantity=0.5 ,astyle=amountstyle{asprecision=Precision 1, asdecimalpoint=Just '.'} } } ,testCase "total price" $ assertParseEq amountp "$10 @@ €5" amount{ acommodity="$" ,aquantity=10 ,astyle=amountstyle{asprecision=Precision 0, asdecimalpoint=Nothing} ,aprice=Just $ TotalPrice $ amount{ acommodity="€" ,aquantity=5 ,astyle=amountstyle{asprecision=Precision 0, asdecimalpoint=Nothing} } } ,testCase "unit price, parenthesised" $ assertParse amountp "$10 (@) €0.5" ,testCase "total price, parenthesised" $ assertParse amountp "$10 (@@) €0.5" ] ,let p = lift (numberp Nothing) :: JournalParser IO (Quantity, Word8, Maybe Char, Maybe DigitGroupStyle) in testCase "numberp" $ do assertParseEq p "0" (0, 0, Nothing, Nothing) assertParseEq p "1" (1, 0, Nothing, Nothing) assertParseEq p "1.1" (1.1, 1, Just '.', Nothing) assertParseEq p "1,000.1" (1000.1, 1, Just '.', Just $ DigitGroups ',' [3]) assertParseEq p "1.00.000,1" (100000.1, 1, Just ',', Just $ DigitGroups '.' [3,2]) assertParseEq p "1,000,000" (1000000, 0, Nothing, Just $ DigitGroups ',' [3,3]) -- could be simplified to [3] assertParseEq p "1." (1, 0, Just '.', Nothing) assertParseEq p "1," (1, 0, Just ',', Nothing) assertParseEq p ".1" (0.1, 1, Just '.', Nothing) assertParseEq p ",1" (0.1, 1, Just ',', Nothing) assertParseError p "" "" assertParseError p "1,000.000,1" "" assertParseError p "1.000,000.1" "" assertParseError p "1,000.000.1" "" assertParseError p "1,,1" "" assertParseError p "1..1" "" assertParseError p ".1," "" assertParseError p ",1." "" assertParseEq p "1.555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555" (1.555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555, 255, Just '.', Nothing) assertParseError p "1.5555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555555" "" ,testGroup "spaceandamountormissingp" [ testCase "space and amount" $ assertParseEq spaceandamountormissingp " $47.18" (mixedAmount $ usd 47.18) ,testCase "empty string" $ assertParseEq spaceandamountormissingp "" missingmixedamt -- ,testCase "just space" $ assertParseEq spaceandamountormissingp " " missingmixedamt -- XXX should it ? -- ,testCase "just amount" $ assertParseError spaceandamountormissingp "$47.18" "" -- succeeds, consuming nothing ] ]