hledger/hledger-lib/Hledger/Query.hs
2024-01-21 00:57:30 -10:00

1079 lines
53 KiB
Haskell

{-|
A general query system for matching things (accounts, postings,
transactions..) by various criteria, and a SimpleTextParser for query expressions.
-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE TupleSections #-}
module Hledger.Query (
-- * Query and QueryOpt
Query(..),
QueryOpt(..),
OrdPlus(..),
payeeTag,
noteTag,
generatedTransactionTag,
-- * parsing
parseQuery,
parseQueryList,
parseQueryTerm,
parseAccountType,
-- * modifying
simplifyQuery,
filterQuery,
filterQueryOrNotQuery,
matchesQuery,
-- * predicates
queryIsNull,
queryIsDate,
queryIsDate2,
queryIsDateOrDate2,
queryIsStatus,
queryIsCode,
queryIsDesc,
queryIsTag,
queryIsAcct,
queryIsType,
queryIsDepth,
queryIsReal,
queryIsAmt,
queryIsSym,
queryIsStartDateOnly,
queryIsTransactionRelated,
-- * accessors
queryStartDate,
queryEndDate,
queryDateSpan,
queryDateSpan',
queryDepth,
inAccount,
inAccountQuery,
-- * matching things with queries
matchesTransaction,
matchesTransactionExtra,
matchesDescription,
matchesPayeeWIP,
matchesPosting,
matchesPostingExtra,
matchesAccount,
matchesAccountExtra,
matchesMixedAmount,
matchesAmount,
matchesCommodity,
matchesTags,
matchesPriceDirective,
words'',
queryprefixes,
-- * tests
tests_Query
)
where
import Control.Applicative ((<|>), many, optional)
import Data.Default (Default(..))
import Data.Either (partitionEithers)
import Data.List (partition, intercalate)
import Data.Maybe (fromMaybe, isJust, mapMaybe)
import Data.Text (Text)
import qualified Data.Text as T
import Data.Time.Calendar (Day, fromGregorian )
import Safe (readDef, readMay, maximumByMay, maximumMay, minimumMay)
import Text.Megaparsec (between, noneOf, sepBy, try, (<?>), notFollowedBy)
import Text.Megaparsec.Char (char, string, string')
import Hledger.Utils hiding (words')
import Hledger.Data.Types
import Hledger.Data.AccountName
import Hledger.Data.Amount (amountsRaw, mixedAmount, nullamt, usd)
import Hledger.Data.Dates
import Hledger.Data.Posting
import Hledger.Data.Transaction
-- | A query is a composition of search criteria, which can be used to
-- match postings, transactions, accounts and more.
data Query =
-- compound queries
Not Query -- ^ negate this match
| And [Query] -- ^ match if all of these match
| Or [Query] -- ^ match if any of these match
-- no-op queries
| Any -- ^ always match
| None -- ^ never match
-- data queries (in "standard" order, roughly as they appear in a transaction)
| Date DateSpan -- ^ match primary dates in this date span
| Date2 DateSpan -- ^ match secondary dates in this date span
| StatusQ Status -- ^ match this txn/posting status
| Code Regexp -- ^ match txn codes infix-matched by this regexp
| Desc Regexp -- ^ match txn descriptions infix-matched by this regexp
| Tag Regexp (Maybe Regexp) -- ^ match if a tag's name, and optionally its value, is infix-matched by the respective regexps
| Acct Regexp -- ^ match account names infix-matched by this regexp
| Type [AccountType] -- ^ match accounts whose type is one of these (or with no types, any account)
| Depth Int -- ^ match if account depth is less than or equal to this value (or, sometimes used as a display option)
| Real Bool -- ^ match postings with this "realness" value
| Amt OrdPlus Quantity -- ^ match if the amount's numeric quantity is less than/greater than/equal to/unsignedly equal to some value
| Sym Regexp -- ^ match if the commodity symbol is fully-matched by this regexp
deriving (Eq,Show)
instance Default Query where def = Any
-- | Construct a query for the payee: tag
payeeTag :: Maybe Text -> Either RegexError Query
payeeTag = fmap (Tag (toRegexCI' "payee")) . maybe (pure Nothing) (fmap Just . toRegexCI)
-- | Construct a query for the note: tag
noteTag :: Maybe Text -> Either RegexError Query
noteTag = fmap (Tag (toRegexCI' "note")) . maybe (pure Nothing) (fmap Just . toRegexCI)
-- | Construct a query for the generated-transaction: tag
generatedTransactionTag :: Query
generatedTransactionTag = Tag (toRegexCI' "generated-transaction") Nothing
-- | A more expressive Ord, used for amt: queries. The Abs* variants
-- compare with the absolute value of a number, ignoring sign.
data OrdPlus = Lt | LtEq | Gt | GtEq | Eq | AbsLt | AbsLtEq | AbsGt | AbsGtEq | AbsEq
deriving (Show,Eq)
-- | A query option changes a query's/report's behaviour and output in some way.
data QueryOpt = QueryOptInAcctOnly AccountName -- ^ show an account register focussed on this account
| QueryOptInAcct AccountName -- ^ as above but include sub-accounts in the account register
-- | QueryOptCostBasis -- ^ show amounts converted to cost where possible
-- | QueryOptDate2 -- ^ show secondary dates instead of primary dates
deriving (Show, Eq)
-- parsing
-- -- | A query restricting the account(s) to be shown in the sidebar, if any.
-- -- Just looks at the first query option.
-- showAccountMatcher :: [QueryOpt] -> Maybe Query
-- showAccountMatcher (QueryOptInAcctSubsOnly a:_) = Just $ Acct True $ accountNameToAccountRegex a
-- showAccountMatcher _ = Nothing
-- | A version of parseQueryList which acts on a single Text of
-- space-separated terms.
--
-- The usual shell quoting rules are assumed. When a pattern contains
-- whitespace, it (or the whole term including prefix) should be enclosed
-- in single or double quotes.
--
-- A query term is either:
--
-- 1. a search pattern, which matches on one or more fields, eg:
--
-- acct:REGEXP - match the account name with a regular expression
-- desc:REGEXP - match the transaction description
-- date:PERIODEXP - match the date with a period expression
--
-- The prefix indicates the field to match, or if there is no prefix
-- account name is assumed.
--
-- 2. a query option, which modifies the reporting behaviour in some
-- way. There is currently one of these, which may appear only once:
--
-- inacct:FULLACCTNAME
--
-- Period expressions may contain relative dates, so a reference date is
-- required to fully parse these.
--
-- >>> parseQuery nulldate "expenses:dining out"
-- Right (Or [Acct (RegexpCI "expenses:dining"),Acct (RegexpCI "out")],[])
--
-- >>> parseQuery nulldate "\"expenses:dining out\""
-- Right (Acct (RegexpCI "expenses:dining out"),[])
parseQuery :: Day -> T.Text -> Either String (Query,[QueryOpt])
parseQuery d t = parseQueryList d $ words'' queryprefixes t
-- | Convert a list of space-separated queries to a single query
--
-- Multiple terms are combined as follows:
-- 1. multiple account patterns are OR'd together
-- 2. multiple description patterns are OR'd together
-- 3. multiple status patterns are OR'd together
-- 4. then all terms are AND'd together
parseQueryList :: Day -> [T.Text] -> Either String (Query, [QueryOpt])
parseQueryList d termstrs = do
eterms <- mapM (parseQueryTerm d) termstrs
let (pats, optss) = unzip eterms
q = combineQueryList pats
Right (q, concat optss)
combineQueryList :: [Query] -> Query
combineQueryList pats = q
where
(descpats, pats') = partition queryIsDesc pats
(acctpats, pats'') = partition queryIsAcct pats'
(statuspats, otherpats) = partition queryIsStatus pats''
q = simplifyQuery $ And $ [Or acctpats, Or descpats, Or statuspats] ++ otherpats
-- XXX
-- | Quote-and-prefix-aware version of words - don't split on spaces which
-- are inside quotes, including quotes which may have one of the specified
-- prefixes in front, and maybe an additional not: prefix in front of that.
words'' :: [T.Text] -> T.Text -> [T.Text]
words'' prefixes = fromparse . parsewith maybePrefixedQuotedPhrases -- XXX
where
maybePrefixedQuotedPhrases :: SimpleTextParser [T.Text]
maybePrefixedQuotedPhrases = choice' [prefixedQuotedPattern, singleQuotedPattern, doubleQuotedPattern, patterns] `sepBy`
(notFollowedBy (skipNonNewlineSpaces >> char ')') >> skipNonNewlineSpaces1)
prefixedQuotedPattern :: SimpleTextParser T.Text
prefixedQuotedPattern = do
not' <- fromMaybe "" `fmap` (optional $ string "not:")
let allowednexts | T.null not' = prefixes
| otherwise = prefixes ++ [""]
next <- choice' $ map string allowednexts
let prefix :: T.Text
prefix = not' <> next
p <- singleQuotedPattern <|> doubleQuotedPattern
return $ prefix <> stripquotes p
singleQuotedPattern :: SimpleTextParser T.Text
singleQuotedPattern = stripquotes . T.pack <$> between (char '\'') (char '\'') (many $ noneOf ("'" :: [Char]))
doubleQuotedPattern :: SimpleTextParser T.Text
doubleQuotedPattern = stripquotes . T.pack <$> between (char '"') (char '"') (many $ noneOf ("\"" :: [Char]))
patterns :: SimpleTextParser T.Text
patterns = T.pack <$> many (noneOf (" \n\r" :: [Char]))
-- XXX
-- keep synced with patterns below, excluding "not"
queryprefixes :: [T.Text]
queryprefixes = map (<>":") [
"inacctonly"
,"inacct"
,"amt"
,"code"
,"desc"
,"payee"
,"note"
,"acct"
,"date"
,"date2"
,"status"
,"cur"
,"real"
,"empty"
,"depth"
,"tag"
,"type"
,"expr"
]
defaultprefix :: T.Text
defaultprefix = "acct"
-- -- | Parse the query string as a boolean tree of match patterns.
-- parseQueryTerm :: String -> Query
-- parseQueryTerm s = either (const (Any)) id $ runParser query () "" $ lexmatcher s
-- lexmatcher :: String -> [String]
-- lexmatcher s = words' s
-- query :: GenParser String () Query
-- query = undefined
-- | Parse a single query term as either a query or a query option,
-- or return an error message if parsing fails.
parseQueryTerm :: Day -> T.Text -> Either String (Query, [QueryOpt])
parseQueryTerm _ (T.stripPrefix "inacctonly:" -> Just s) = Right (Any, [QueryOptInAcctOnly s])
parseQueryTerm _ (T.stripPrefix "inacct:" -> Just s) = Right (Any, [QueryOptInAcct s])
parseQueryTerm d (T.stripPrefix "not:" -> Just s) =
case parseQueryTerm d s of
Right (q, qopts) -> Right (Not q, qopts)
Left err -> Left err
parseQueryTerm _ (T.stripPrefix "code:" -> Just s) = (,[]) . Code <$> toRegexCI s
parseQueryTerm _ (T.stripPrefix "desc:" -> Just s) = (,[]) . Desc <$> toRegexCI s
parseQueryTerm _ (T.stripPrefix "payee:" -> Just s) = (,[]) <$> payeeTag (Just s)
parseQueryTerm _ (T.stripPrefix "note:" -> Just s) = (,[]) <$> noteTag (Just s)
parseQueryTerm _ (T.stripPrefix "acct:" -> Just s) = (,[]) . Acct <$> toRegexCI s
parseQueryTerm d (T.stripPrefix "date2:" -> Just s) =
case parsePeriodExpr d s of Left e -> Left $ "\"date2:"++T.unpack s++"\" gave a "++showDateParseError e
Right (_,spn) -> Right (Date2 spn, [])
parseQueryTerm d (T.stripPrefix "date:" -> Just s) =
case parsePeriodExpr d s of Left e -> Left $ "\"date:"++T.unpack s++"\" gave a "++showDateParseError e
Right (_,spn) -> Right (Date spn, [])
parseQueryTerm _ (T.stripPrefix "status:" -> Just s) =
case parseStatus s of Left e -> Left $ "\"status:"++T.unpack s++"\" gave a parse error: " ++ e
Right st -> Right (StatusQ st, [])
parseQueryTerm _ (T.stripPrefix "real:" -> Just s) = Right (Real $ parseBool s || T.null s, [])
parseQueryTerm _ (T.stripPrefix "amt:" -> Just s) = Right (Amt ord q, []) where (ord, q) = either error id $ parseAmountQueryTerm s -- PARTIAL:
parseQueryTerm _ (T.stripPrefix "depth:" -> Just s)
| n >= 0 = Right (Depth n, [])
| otherwise = Left "depth: should have a positive number"
where n = readDef 0 (T.unpack s)
parseQueryTerm _ (T.stripPrefix "cur:" -> Just s) = (,[]) . Sym <$> toRegexCI ("^" <> s <> "$") -- support cur: as an alias
parseQueryTerm _ (T.stripPrefix "tag:" -> Just s) = (,[]) <$> parseTag s
parseQueryTerm _ (T.stripPrefix "type:" -> Just s) = (,[]) <$> parseTypeCodes s
parseQueryTerm d (T.stripPrefix "expr:" -> Just s) = parseBooleanQuery d s
parseQueryTerm _ "" = Right (Any, [])
parseQueryTerm d s = parseQueryTerm d $ defaultprefix<>":"<>s
-- | Parses a boolean query expression.
--
-- Boolean queries combine smaller queries into larger ones. The boolean operators
-- made available through this function are "NOT e", "e AND e", "e OR e", and "e e".
-- Query options defined in multiple sub-queries are simply combined by concatenating
-- all options into one list.
--
-- Boolean operators in queries take precedence over one another. For instance, the
-- prefix-operator "NOT e" is always parsed before "e AND e", "e AND e" before "e OR e",
-- and "e OR e" before "e e".
--
-- The space-separation operator is left as it was the default before the introduction of
-- boolean operators. It takes the behaviour defined in the interpretQueryList function,
-- whereas the NOT, OR, and AND operators simply wrap a list of queries with the associated
--
--
-- The result of this function is either an error encountered during parsing of the
-- expression or the combined query and query options.
--
-- >>> parseBooleanQuery nulldate "expenses:dining AND out"
-- Right (And [Acct (RegexpCI "expenses:dining"),Acct (RegexpCI "out")],[])
--
-- >>> parseBooleanQuery nulldate "expenses:dining AND desc:a OR desc:b"
-- Right (Or [And [Acct (RegexpCI "expenses:dining"),Desc (RegexpCI "a")],Desc (RegexpCI "b")],[])
parseBooleanQuery :: Day -> T.Text -> Either String (Query,[QueryOpt])
parseBooleanQuery d t = either (Left . ("failed to parse query:" <>) . customErrorBundlePretty) Right $ parsewith spacedQueriesP t
where
regexP :: SimpleTextParser T.Text
regexP = choice'
[ stripquotes . T.pack <$> between (char '\'') (char '\'') (many $ noneOf ("'" :: [Char])),
stripquotes . T.pack <$> between (char '"') (char '"') (many $ noneOf ("\"" :: [Char])),
T.pack <$> (notFollowedBy keywordSpaceP >> (many $ noneOf (") \n\r" :: [Char]))) ]
queryPrefixP :: SimpleTextParser T.Text
queryPrefixP = (string "not:" <> (fromMaybe "" <$> optional queryPrefixP))
<|> choice' (string <$> queryprefixes)
<?> "query prefix"
queryTermP :: SimpleTextParser (Query, [QueryOpt])
queryTermP = do
prefix <- optional queryPrefixP
queryRegex <- regexP
case parseQueryTerm d (fromMaybe "" prefix <> queryRegex) of
Right q -> return q
Left err -> error' err
keywordSpaceP :: SimpleTextParser T.Text
keywordSpaceP = choice' (string' <$> ["not ", "and ", "or "])
parQueryP,notQueryP :: SimpleTextParser (Query, [QueryOpt])
parQueryP = between (char '(' >> skipNonNewlineSpaces)
(try $ skipNonNewlineSpaces >> char ')')
spacedQueriesP
<|> queryTermP
notQueryP = (maybe id (\_ (q, qopts) -> (Not q, qopts)) <$> optional (try $ string' "not" >> notFollowedBy (char ':') >> skipNonNewlineSpaces1)) <*> parQueryP
andQueriesP,orQueriesP,spacedQueriesP :: SimpleTextParser (Query, [QueryOpt])
andQueriesP = nArityOp And <$> notQueryP `sepBy` (try $ skipNonNewlineSpaces >> string' "and" >> skipNonNewlineSpaces1)
orQueriesP = nArityOp Or <$> andQueriesP `sepBy` (try $ skipNonNewlineSpaces >> string' "or" >> skipNonNewlineSpaces1)
spacedQueriesP = nArityOp combineQueryList <$> orQueriesP `sepBy` skipNonNewlineSpaces1
nArityOp :: ([Query] -> Query) -> [(Query, [QueryOpt])] -> (Query, [QueryOpt])
nArityOp f res = let (qs, qoptss) = unzip res
qoptss' = concat qoptss
in case qs of
[] -> (Any, qoptss')
(q:[]) -> (simplifyQuery q, qoptss')
_ -> (simplifyQuery $ f qs, qoptss')
-- | Parse the argument of an amt query term ([OP][SIGN]NUM), to an
-- OrdPlus and a Quantity, or if parsing fails, an error message. OP
-- can be <=, <, >=, >, or = . NUM can be a simple integer or decimal.
-- If a decimal, the decimal mark must be period, and it must have
-- digits preceding it. Digit group marks are not allowed.
parseAmountQueryTerm :: T.Text -> Either String (OrdPlus, Quantity)
parseAmountQueryTerm amtarg =
case amtarg of
-- number has a + sign, do a signed comparison
(parse "<=+" -> Just q) -> Right (LtEq ,q)
(parse "<+" -> Just q) -> Right (Lt ,q)
(parse ">=+" -> Just q) -> Right (GtEq ,q)
(parse ">+" -> Just q) -> Right (Gt ,q)
(parse "=+" -> Just q) -> Right (Eq ,q)
(parse "+" -> Just q) -> Right (Eq ,q)
-- number has a - sign, do a signed comparison
(parse "<-" -> Just q) -> Right (Lt ,-q)
(parse "<=-" -> Just q) -> Right (LtEq ,-q)
(parse ">-" -> Just q) -> Right (Gt ,-q)
(parse ">=-" -> Just q) -> Right (GtEq ,-q)
(parse "=-" -> Just q) -> Right (Eq ,-q)
(parse "-" -> Just q) -> Right (Eq ,-q)
-- number is unsigned and zero, do a signed comparison (more useful)
(parse "<=" -> Just 0) -> Right (LtEq ,0)
(parse "<" -> Just 0) -> Right (Lt ,0)
(parse ">=" -> Just 0) -> Right (GtEq ,0)
(parse ">" -> Just 0) -> Right (Gt ,0)
-- number is unsigned and non-zero, do an absolute magnitude comparison
(parse "<=" -> Just q) -> Right (AbsLtEq ,q)
(parse "<" -> Just q) -> Right (AbsLt ,q)
(parse ">=" -> Just q) -> Right (AbsGtEq ,q)
(parse ">" -> Just q) -> Right (AbsGt ,q)
(parse "=" -> Just q) -> Right (AbsEq ,q)
(parse "" -> Just q) -> Right (AbsEq ,q)
_ -> Left . T.unpack $
"could not parse as a comparison operator followed by an optionally-signed number: " <> amtarg
where
-- Strip outer whitespace from the text, require and remove the
-- specified prefix, remove all whitespace from the remainder, and
-- read it as a simple integer or decimal if possible.
parse :: T.Text -> T.Text -> Maybe Quantity
parse p s = (T.stripPrefix p . T.strip) s >>= readMay . T.unpack . T.filter (/=' ')
parseTag :: T.Text -> Either RegexError Query
parseTag s = do
tag <- toRegexCI $ if T.null v then s else n
body <- if T.null v then pure Nothing else Just <$> toRegexCI (T.tail v)
return $ Tag tag body
where (n,v) = T.break (=='=') s
-- | Parse one or more account type code letters to a query matching any of those types.
parseTypeCodes :: T.Text -> Either String Query
parseTypeCodes s =
case partitionEithers $ map (parseAccountType False . T.singleton) $ T.unpack s of
((e:_),_) -> Left $ "could not parse " <> show e <> " as an account type code.\n" <> help
([],[]) -> Left help
([],ts) -> Right $ Type ts
where
help = "type:'s argument should be one or more of " ++ accountTypeChoices False ++ " (case insensitive)."
accountTypeChoices :: Bool -> String
accountTypeChoices allowlongform =
intercalate ", "
-- keep synced with parseAccountType
$ ["A","L","E","R","X","C","V"]
++ if allowlongform then ["Asset","Liability","Equity","Revenue","Expense","Cash","Conversion"] else []
-- | Case-insensitively parse one single-letter code, or one long-form word if permitted, to an account type.
-- On failure, returns the unparseable text.
parseAccountType :: Bool -> Text -> Either String AccountType
parseAccountType allowlongform s =
case T.toLower s of
-- keep synced with accountTypeChoices
"a" -> Right Asset
"l" -> Right Liability
"e" -> Right Equity
"r" -> Right Revenue
"x" -> Right Expense
"c" -> Right Cash
"v" -> Right Conversion
"asset" | allowlongform -> Right Asset
"liability" | allowlongform -> Right Liability
"equity" | allowlongform -> Right Equity
"revenue" | allowlongform -> Right Revenue
"expense" | allowlongform -> Right Expense
"cash" | allowlongform -> Right Cash
"conversion" | allowlongform -> Right Conversion
_ -> Left $ T.unpack s
-- | Parse the value part of a "status:" query, or return an error.
parseStatus :: T.Text -> Either String Status
parseStatus s | s `elem` ["*","1"] = Right Cleared
| s `elem` ["","0"] = Right Unmarked
| s == "!" = Right Pending
| otherwise = Left $ "could not parse "++show s++" as a status (should be *, ! or empty)"
-- | Parse the boolean value part of a "status:" query. "1" means true,
-- anything else will be parsed as false without error.
parseBool :: T.Text -> Bool
parseBool s = s `elem` truestrings
truestrings :: [T.Text]
truestrings = ["1"]
-- * modifying
simplifyQuery :: Query -> Query
simplifyQuery q0 =
let q1 = simplify q0
in if q1 == q0 then q0 else simplifyQuery q1
where
simplify (And []) = Any
simplify (And [q]) = simplify q
simplify (And qs) | same qs = simplify $ head qs
| None `elem` qs = None
| all queryIsDate qs = Date $ spansIntersect $ mapMaybe queryTermDateSpan qs
| otherwise = And $ map simplify dateqs ++ map simplify otherqs
where (dateqs, otherqs) = partition queryIsDate $ filter (/=Any) qs
simplify (Or []) = Any
simplify (Or [q]) = simplifyQuery q
simplify (Or qs) | same qs = simplify $ head qs
| Any `elem` qs = Any
-- all queryIsDate qs = Date $ spansUnion $ mapMaybe queryTermDateSpan qs ?
| otherwise = Or $ map simplify $ filter (/=None) qs
simplify (Date (DateSpan Nothing Nothing)) = Any
simplify (Date2 (DateSpan Nothing Nothing)) = Any
simplify q = q
same [] = True
same (a:as) = all (a==) as
-- | Remove query terms (or whole sub-expressions) from this query
-- which do not match the given predicate. XXX Semantics not completely clear.
-- Also calls simplifyQuery on the result.
filterQuery :: (Query -> Bool) -> Query -> Query
filterQuery p = simplifyQuery . filterQuery' p
-- | Like filterQuery, but returns the filtered query as is, without simplifying.
filterQuery' :: (Query -> Bool) -> Query -> Query
filterQuery' p (And qs) = And $ map (filterQuery p) qs
filterQuery' p (Or qs) = Or $ map (filterQuery p) qs
filterQuery' p q = if p q then q else Any
-- | Remove query terms (or whole sub-expressions) from this query
-- which match neither the given predicate nor that predicate negated
-- (eg, if predicate is queryIsAcct, this will keep both "acct:" and "not:acct:" terms).
-- Also calls simplifyQuery on the result.
-- (Since 1.24.1, might be merged into filterQuery in future.)
-- XXX Semantics not completely clear.
filterQueryOrNotQuery :: (Query -> Bool) -> Query -> Query
filterQueryOrNotQuery p0 = simplifyQuery . filterQueryOrNotQuery' p0
where
filterQueryOrNotQuery' :: (Query -> Bool) -> Query -> Query
filterQueryOrNotQuery' p (And qs) = And $ map (filterQueryOrNotQuery p) qs
filterQueryOrNotQuery' p (Or qs) = Or $ map (filterQueryOrNotQuery p) qs
filterQueryOrNotQuery' p (Not q) | p q = Not $ filterQueryOrNotQuery p q
filterQueryOrNotQuery' p q = if p q then q else Any
-- * predicates
-- | Does this simple query predicate match any part of this possibly compound query ?
matchesQuery :: (Query -> Bool) -> Query -> Bool
matchesQuery p (And qs) = any (matchesQuery p) qs
matchesQuery p (Or qs) = any (matchesQuery p) qs
matchesQuery p (Not q) = p q
matchesQuery p q = p q
-- | Does this query match everything ?
queryIsNull :: Query -> Bool
queryIsNull Any = True
queryIsNull (And []) = True
queryIsNull (Not (Or [])) = True
queryIsNull _ = False
-- | Is this a simple query of this type (date:) ?
-- Does not match a compound query involving and/or/not.
-- Likewise for the following functions.
queryIsDate :: Query -> Bool
queryIsDate (Date _) = True
queryIsDate _ = False
queryIsDate2 :: Query -> Bool
queryIsDate2 (Date2 _) = True
queryIsDate2 _ = False
queryIsDateOrDate2 :: Query -> Bool
queryIsDateOrDate2 (Date _) = True
queryIsDateOrDate2 (Date2 _) = True
queryIsDateOrDate2 _ = False
queryIsStatus :: Query -> Bool
queryIsStatus (StatusQ _) = True
queryIsStatus _ = False
queryIsCode :: Query -> Bool
queryIsCode (Code _) = True
queryIsCode _ = False
queryIsDesc :: Query -> Bool
queryIsDesc (Desc _) = True
queryIsDesc _ = False
queryIsTag :: Query -> Bool
queryIsTag (Tag _ _) = True
queryIsTag _ = False
queryIsAcct :: Query -> Bool
queryIsAcct (Acct _) = True
queryIsAcct _ = False
queryIsType :: Query -> Bool
queryIsType (Type _) = True
queryIsType _ = False
queryIsDepth :: Query -> Bool
queryIsDepth (Depth _) = True
queryIsDepth _ = False
queryIsReal :: Query -> Bool
queryIsReal (Real _) = True
queryIsReal _ = False
queryIsAmt :: Query -> Bool
queryIsAmt (Amt _ _) = True
queryIsAmt _ = False
queryIsSym :: Query -> Bool
queryIsSym (Sym _) = True
queryIsSym _ = False
-- | Does this query specify a start date and nothing else (that would
-- filter postings prior to the date) ?
-- When the flag is true, look for a starting secondary date instead.
queryIsStartDateOnly :: Bool -> Query -> Bool
queryIsStartDateOnly _ Any = False
queryIsStartDateOnly _ None = False
queryIsStartDateOnly secondary (Or ms) = all (queryIsStartDateOnly secondary) ms
queryIsStartDateOnly secondary (And ms) = all (queryIsStartDateOnly secondary) ms
queryIsStartDateOnly False (Date (DateSpan (Just _) _)) = True
queryIsStartDateOnly True (Date2 (DateSpan (Just _) _)) = True
queryIsStartDateOnly _ _ = False
-- | Does this query involve a property of transactions (or their postings),
-- making it inapplicable to account declarations ?
queryIsTransactionRelated :: Query -> Bool
queryIsTransactionRelated = matchesQuery (
queryIsDate
||| queryIsDate2
||| queryIsStatus
||| queryIsCode
||| queryIsDesc
||| queryIsReal
||| queryIsAmt
||| queryIsSym
)
(|||) :: (a->Bool) -> (a->Bool) -> (a->Bool)
p ||| q = \v -> p v || q v
-- * accessors
-- | What start date (or secondary date) does this query specify, if any ?
-- For OR expressions, use the earliest of the dates. NOT is ignored.
queryStartDate :: Bool -> Query -> Maybe Day
queryStartDate secondary (Or ms) = earliestMaybeDate $ map (queryStartDate secondary) ms
queryStartDate secondary (And ms) = latestMaybeDate $ map (queryStartDate secondary) ms
queryStartDate False (Date (DateSpan (Just d) _)) = Just $ fromEFDay d
queryStartDate True (Date2 (DateSpan (Just d) _)) = Just $ fromEFDay d
queryStartDate _ _ = Nothing
-- | What end date (or secondary date) does this query specify, if any ?
-- For OR expressions, use the latest of the dates. NOT is ignored.
queryEndDate :: Bool -> Query -> Maybe Day
queryEndDate secondary (Or ms) = latestMaybeDate' $ map (queryEndDate secondary) ms
queryEndDate secondary (And ms) = earliestMaybeDate' $ map (queryEndDate secondary) ms
queryEndDate False (Date (DateSpan _ (Just d))) = Just $ fromEFDay d
queryEndDate True (Date2 (DateSpan _ (Just d))) = Just $ fromEFDay d
queryEndDate _ _ = Nothing
queryTermDateSpan (Date spn) = Just spn
queryTermDateSpan _ = Nothing
-- | What date span (or with a true argument, what secondary date span) does this query specify ?
-- OR clauses specifying multiple spans return their union (the span enclosing all of them).
-- AND clauses specifying multiple spans return their intersection.
-- NOT clauses are ignored.
queryDateSpan :: Bool -> Query -> DateSpan
queryDateSpan secondary (Or qs) = spansUnion $ map (queryDateSpan secondary) qs
queryDateSpan secondary (And qs) = spansIntersect $ map (queryDateSpan secondary) qs
queryDateSpan _ (Date spn) = spn
queryDateSpan True (Date2 spn) = spn
queryDateSpan _ _ = nulldatespan
-- | What date span does this query specify, treating primary and secondary dates as equivalent ?
-- OR clauses specifying multiple spans return their union (the span enclosing all of them).
-- AND clauses specifying multiple spans return their intersection.
-- NOT clauses are ignored.
queryDateSpan' :: Query -> DateSpan
queryDateSpan' (Or qs) = spansUnion $ map queryDateSpan' qs
queryDateSpan' (And qs) = spansIntersect $ map queryDateSpan' qs
queryDateSpan' (Date spn) = spn
queryDateSpan' (Date2 spn) = spn
queryDateSpan' _ = nulldatespan
-- | What is the earliest of these dates, where Nothing is earliest ?
earliestMaybeDate :: [Maybe Day] -> Maybe Day
earliestMaybeDate = fromMaybe Nothing . minimumMay
-- | What is the latest of these dates, where Nothing is earliest ?
latestMaybeDate :: [Maybe Day] -> Maybe Day
latestMaybeDate = fromMaybe Nothing . maximumMay
-- | What is the earliest of these dates, where Nothing is the latest ?
earliestMaybeDate' :: [Maybe Day] -> Maybe Day
earliestMaybeDate' = fromMaybe Nothing . minimumMay . filter isJust
-- | What is the latest of these dates, where Nothing is the latest ?
latestMaybeDate' :: [Maybe Day] -> Maybe Day
latestMaybeDate' = fromMaybe Nothing . maximumByMay compareNothingMax
where
compareNothingMax Nothing Nothing = EQ
compareNothingMax (Just _) Nothing = LT
compareNothingMax Nothing (Just _) = GT
compareNothingMax (Just a) (Just b) = compare a b
-- | The depth limit this query specifies, if it has one
queryDepth :: Query -> Maybe Int
queryDepth = minimumMay . queryDepth'
where
queryDepth' (Depth d) = [d]
queryDepth' (Or qs) = concatMap queryDepth' qs
queryDepth' (And qs) = concatMap queryDepth' qs
queryDepth' _ = []
-- | The account we are currently focussed on, if any, and whether subaccounts are included.
-- Just looks at the first query option.
inAccount :: [QueryOpt] -> Maybe (AccountName,Bool)
inAccount [] = Nothing
inAccount (QueryOptInAcctOnly a:_) = Just (a,False)
inAccount (QueryOptInAcct a:_) = Just (a,True)
-- | A query for the account(s) we are currently focussed on, if any.
-- Just looks at the first query option.
inAccountQuery :: [QueryOpt] -> Maybe Query
inAccountQuery [] = Nothing
inAccountQuery (QueryOptInAcctOnly a : _) = Just . Acct $ accountNameToAccountOnlyRegex a
inAccountQuery (QueryOptInAcct a : _) = Just . Acct $ accountNameToAccountRegex a
-- -- | Convert a query to its inverse.
-- negateQuery :: Query -> Query
-- negateQuery = Not
-- matching things with queries
matchesCommodity :: Query -> CommoditySymbol -> Bool
matchesCommodity (Sym r) = regexMatchText r
matchesCommodity _ = const True
-- | Does the match expression match this (simple) amount ?
matchesAmount :: Query -> Amount -> Bool
matchesAmount (Not q) a = not $ q `matchesAmount` a
matchesAmount (Any) _ = True
matchesAmount (None) _ = False
matchesAmount (Or qs) a = any (`matchesAmount` a) qs
matchesAmount (And qs) a = all (`matchesAmount` a) qs
matchesAmount (Amt ord n) a = compareAmount ord n a
matchesAmount (Sym r) a = matchesCommodity (Sym r) (acommodity a)
matchesAmount _ _ = True
-- | Is this amount's quantity less than, greater than, equal to, or unsignedly equal to this number ?
compareAmount :: OrdPlus -> Quantity -> Amount -> Bool
compareAmount ord q Amount{aquantity=aq} = case ord of Lt -> aq < q
LtEq -> aq <= q
Gt -> aq > q
GtEq -> aq >= q
Eq -> aq == q
AbsLt -> abs aq < abs q
AbsLtEq -> abs aq <= abs q
AbsGt -> abs aq > abs q
AbsGtEq -> abs aq >= abs q
AbsEq -> abs aq == abs q
matchesMixedAmount :: Query -> MixedAmount -> Bool
matchesMixedAmount q ma = case amountsRaw ma of
[] -> q `matchesAmount` nullamt
as -> any (q `matchesAmount`) as
-- | Does the query match this account name ?
-- A matching in: clause is also considered a match.
matchesAccount :: Query -> AccountName -> Bool
matchesAccount (None) _ = False
matchesAccount (Not m) a = not $ matchesAccount m a
matchesAccount (Or ms) a = any (`matchesAccount` a) ms
matchesAccount (And ms) a = all (`matchesAccount` a) ms
matchesAccount (Acct r) a = regexMatchText r a
matchesAccount (Depth d) a = accountNameLevel a <= d
matchesAccount (Tag _ _) _ = False
matchesAccount _ _ = True
-- | Like matchesAccount, but with optional extra matching features:
--
-- - If the account's type is provided, any type: terms in the query
-- must match it (and any negated type: terms must not match it).
--
-- - If the account's tags are provided, any tag: terms must match
-- at least one of them (and any negated tag: terms must match none).
--
matchesAccountExtra :: (AccountName -> Maybe AccountType) -> (AccountName -> [Tag]) -> Query -> AccountName -> Bool
matchesAccountExtra atypes atags (Not q ) a = not $ matchesAccountExtra atypes atags q a
matchesAccountExtra atypes atags (Or qs ) a = any (\q -> matchesAccountExtra atypes atags q a) qs
matchesAccountExtra atypes atags (And qs ) a = all (\q -> matchesAccountExtra atypes atags q a) qs
matchesAccountExtra atypes _ (Type ts) a = maybe False (\t -> any (t `isAccountSubtypeOf`) ts) $ atypes a
matchesAccountExtra _ atags (Tag npat vpat) a = matchesTags npat vpat $ atags a
matchesAccountExtra _ _ q a = matchesAccount q a
-- | Does the match expression match this posting ?
-- When matching account name, and the posting has been transformed
-- in some way, we will match either the original or transformed name.
matchesPosting :: Query -> Posting -> Bool
matchesPosting (Not q) p = not $ q `matchesPosting` p
matchesPosting (Any) _ = True
matchesPosting (None) _ = False
matchesPosting (Or qs) p = any (`matchesPosting` p) qs
matchesPosting (And qs) p = all (`matchesPosting` p) qs
matchesPosting (Code r) p = maybe False (regexMatchText r . tcode) $ ptransaction p
matchesPosting (Desc r) p = maybe False (regexMatchText r . tdescription) $ ptransaction p
matchesPosting (Acct r) p = matches p || maybe False matches (poriginal p) where matches = regexMatchText r . paccount
matchesPosting (Date spn) p = spn `spanContainsDate` postingDate p
matchesPosting (Date2 spn) p = spn `spanContainsDate` postingDate2 p
matchesPosting (StatusQ s) p = postingStatus p == s
matchesPosting (Real v) p = v == isReal p
matchesPosting q@(Depth _) Posting{paccount=a} = q `matchesAccount` a
matchesPosting q@(Amt _ _) Posting{pamount=as} = q `matchesMixedAmount` as
matchesPosting (Sym r) Posting{pamount=as} = any (matchesCommodity (Sym r) . acommodity) $ amountsRaw as
matchesPosting (Tag n v) p = case (reString n, v) of
("payee", Just v') -> maybe False (regexMatchText v' . transactionPayee) $ ptransaction p
("note", Just v') -> maybe False (regexMatchText v' . transactionNote) $ ptransaction p
(_, mv) -> matchesTags n mv $ postingAllTags p
matchesPosting (Type _) _ = False
-- | Like matchesPosting, but if the posting's account's type is provided,
-- any type: terms in the query must match it (and any negated type: terms
-- must not match it).
matchesPostingExtra :: (AccountName -> Maybe AccountType) -> Query -> Posting -> Bool
matchesPostingExtra atype (Not q ) p = not $ matchesPostingExtra atype q p
matchesPostingExtra atype (Or qs) p = any (\q -> matchesPostingExtra atype q p) qs
matchesPostingExtra atype (And qs) p = all (\q -> matchesPostingExtra atype q p) qs
matchesPostingExtra atype (Type ts) p =
-- does posting's account's type, if we can detect it, match any of the given types ?
(maybe False (\t -> any (t `isAccountSubtypeOf`) ts) . atype $ paccount p)
-- or, try the same test with the original (pre-aliasing/pivoting) posting's account
|| (fromMaybe False $ do
porig <- poriginal p
let a = paccount porig
t <- atype a
Just $ any (t `isAccountSubtypeOf`) ts
)
matchesPostingExtra _ q p = matchesPosting q p
-- | Does the match expression match this transaction ?
matchesTransaction :: Query -> Transaction -> Bool
matchesTransaction (Not q) t = not $ q `matchesTransaction` t
matchesTransaction (Any) _ = True
matchesTransaction (None) _ = False
matchesTransaction (Or qs) t = any (`matchesTransaction` t) qs
matchesTransaction (And qs) t = all (`matchesTransaction` t) qs
matchesTransaction (Code r) t = regexMatchText r $ tcode t
matchesTransaction (Desc r) t = regexMatchText r $ tdescription t
matchesTransaction q@(Acct _) t = any (q `matchesPosting`) $ tpostings t
matchesTransaction (Date spn) t = spanContainsDate spn $ tdate t
matchesTransaction (Date2 spn) t = spanContainsDate spn $ transactionDate2 t
matchesTransaction (StatusQ s) t = tstatus t == s
matchesTransaction (Real v) t = v == hasRealPostings t
matchesTransaction q@(Amt _ _) t = any (q `matchesPosting`) $ tpostings t
matchesTransaction (Depth d) t = any (Depth d `matchesPosting`) $ tpostings t
matchesTransaction q@(Sym _) t = any (q `matchesPosting`) $ tpostings t
matchesTransaction (Tag n v) t = case (reString n, v) of
("payee", Just v') -> regexMatchText v' $ transactionPayee t
("note", Just v') -> regexMatchText v' $ transactionNote t
(_, v') -> matchesTags n v' $ transactionAllTags t
matchesTransaction (Type _) _ = False
-- | Like matchesTransaction, but if the journal's account types are provided,
-- any type: terms in the query must match at least one posting's account type
-- (and any negated type: terms must match none).
matchesTransactionExtra :: (AccountName -> Maybe AccountType) -> Query -> Transaction -> Bool
matchesTransactionExtra atype (Not q) t = not $ matchesTransactionExtra atype q t
matchesTransactionExtra atype (Or qs) t = any (\q -> matchesTransactionExtra atype q t) qs
matchesTransactionExtra atype (And qs) t = all (\q -> matchesTransactionExtra atype q t) qs
matchesTransactionExtra atype q@(Type _) t = any (matchesPostingExtra atype q) $ tpostings t
matchesTransactionExtra _ q t = matchesTransaction q t
-- | Does the query match this transaction description ?
-- Tests desc: terms, any other terms are ignored.
matchesDescription :: Query -> Text -> Bool
matchesDescription (Not q) d = not $ q `matchesDescription` d
matchesDescription (Any) _ = True
matchesDescription (None) _ = False
matchesDescription (Or qs) d = any (`matchesDescription` d) $ filter queryIsDesc qs
matchesDescription (And qs) d = all (`matchesDescription` d) $ filter queryIsDesc qs
matchesDescription (Code _) _ = False
matchesDescription (Desc r) d = regexMatchText r d
matchesDescription _ _ = False
-- | Does the query match this transaction payee ?
-- Tests desc: (and payee: ?) terms, any other terms are ignored.
-- XXX Currently an alias for matchDescription. I'm not sure if more is needed,
-- There's some shenanigan with payee: and "payeeTag" to figure out.
matchesPayeeWIP :: Query -> Payee -> Bool
matchesPayeeWIP = matchesDescription
-- | Does the query match the name and optionally the value of any of these tags ?
matchesTags :: Regexp -> Maybe Regexp -> [Tag] -> Bool
matchesTags namepat valuepat = any (matches namepat valuepat)
where
matches npat vpat (n,v) = regexMatchText npat n && maybe (const True) regexMatchText vpat v
-- | Does the query match this market price ?
matchesPriceDirective :: Query -> PriceDirective -> Bool
matchesPriceDirective (None) _ = False
matchesPriceDirective (Not q) p = not $ matchesPriceDirective q p
matchesPriceDirective (Or qs) p = any (`matchesPriceDirective` p) qs
matchesPriceDirective (And qs) p = all (`matchesPriceDirective` p) qs
matchesPriceDirective q@(Amt _ _) p = matchesAmount q (pdamount p)
matchesPriceDirective q@(Sym _) p = matchesCommodity q (pdcommodity p)
matchesPriceDirective (Date spn) p = spanContainsDate spn (pddate p)
matchesPriceDirective _ _ = True
-- tests
tests_Query = testGroup "Query" [
testCase "simplifyQuery" $ do
(simplifyQuery $ Or [Acct $ toRegex' "a"]) @?= (Acct $ toRegex' "a")
(simplifyQuery $ Or [Any,None]) @?= (Any)
(simplifyQuery $ And [Any,None]) @?= (None)
(simplifyQuery $ And [Any,Any]) @?= (Any)
(simplifyQuery $ And [Acct $ toRegex' "b",Any]) @?= (Acct $ toRegex' "b")
(simplifyQuery $ And [Any,And [Date (DateSpan Nothing Nothing)]]) @?= (Any)
(simplifyQuery $ And [Date (DateSpan Nothing (Just $ Exact $ fromGregorian 2013 01 01)), Date (DateSpan (Just $ Exact $ fromGregorian 2012 01 01) Nothing)])
@?= (Date (DateSpan (Just $ Exact $ fromGregorian 2012 01 01) (Just $ Exact $ fromGregorian 2013 01 01)))
(simplifyQuery $ And [Or [],Or [Desc $ toRegex' "b b"]]) @?= (Desc $ toRegex' "b b")
,testCase "parseQuery" $ do
(parseQuery nulldate "acct:'expenses:autres d\233penses' desc:b") @?= Right (And [Acct $ toRegexCI' "expenses:autres d\233penses", Desc $ toRegexCI' "b"], [])
parseQuery nulldate "inacct:a desc:\"b b\"" @?= Right (Desc $ toRegexCI' "b b", [QueryOptInAcct "a"])
parseQuery nulldate "inacct:a inacct:b" @?= Right (Any, [QueryOptInAcct "a", QueryOptInAcct "b"])
parseQuery nulldate "desc:'x x'" @?= Right (Desc $ toRegexCI' "x x", [])
parseQuery nulldate "'a a' 'b" @?= Right (Or [Acct $ toRegexCI' "a a",Acct $ toRegexCI' "'b"], [])
parseQuery nulldate "\"" @?= Right (Acct $ toRegexCI' "\"", [])
,testCase "parseBooleanQuery" $ do
parseBooleanQuery nulldate "(tag:'atag=a')" @?= Right (Tag (toRegexCI' "atag") (Just $ toRegexCI' "a"), [])
parseBooleanQuery nulldate "( tag:\"atag=a\" )" @?= Right (Tag (toRegexCI' "atag") (Just $ toRegexCI' "a"), [])
parseBooleanQuery nulldate "(acct:'expenses:food')" @?= Right (Acct $ toRegexCI' "expenses:food", [])
parseBooleanQuery nulldate "(((acct:'expenses:food')))" @?= Right (Acct $ toRegexCI' "expenses:food", [])
parseBooleanQuery nulldate "acct:'expenses:food' AND desc:'b'" @?= Right (And [Acct $ toRegexCI' "expenses:food", Desc $ toRegexCI' "b"], [])
parseBooleanQuery nulldate "((desc:'a') AND (desc:'b') OR (desc:'c'))" @?= Right (Or [And [Desc $ toRegexCI' "a", Desc $ toRegexCI' "b"], Desc $ toRegexCI' "c"], [])
parseBooleanQuery nulldate "((desc:'a') OR (desc:'b') AND (desc:'c'))" @?= Right (Or [Desc $ toRegexCI' "a", And [Desc $ toRegexCI' "b", Desc $ toRegexCI' "c"]], [])
parseBooleanQuery nulldate "((desc:'a') AND desc:'b' AND (desc:'c'))" @?= Right (And [Desc $ toRegexCI' "a", Desc $ toRegexCI' "b", Desc $ toRegexCI' "c"], [])
parseBooleanQuery nulldate "(NOT (desc:'a') AND (desc:'b'))" @?= Right (And [Not $ Desc $ toRegexCI' "a", Desc $ toRegexCI' "b"], [])
parseBooleanQuery nulldate "((desc:'a') AND (NOT desc:'b'))" @?= Right (And [Desc $ toRegexCI' "a", Not $ Desc $ toRegexCI' "b"], [])
parseBooleanQuery nulldate "(desc:'a' AND desc:'b')" @?= Right (And [Desc $ toRegexCI' "a", Desc $ toRegexCI' "b"], [])
parseBooleanQuery nulldate "(acct:'a' acct:'b')" @?= Right (Or [Acct $ toRegexCI' "a", Acct $ toRegexCI' "b"], [])
parseBooleanQuery nulldate " acct:'a' acct:'b'" @?= Right (Or [Acct $ toRegexCI' "a", Acct $ toRegexCI' "b"], [])
parseBooleanQuery nulldate "not:a" @?= Right (Not $ Acct $ toRegexCI' "a", [])
parseBooleanQuery nulldate "expenses:food OR (tag:A expenses:drink)" @?= Right (Or [Acct $ toRegexCI' "expenses:food", And [Acct $ toRegexCI' "expenses:drink", Tag (toRegexCI' "A") Nothing]], [])
parseBooleanQuery nulldate "not a" @?= Right (Not $ Acct $ toRegexCI' "a", [])
parseBooleanQuery nulldate "nota" @?= Right (Acct $ toRegexCI' "nota", [])
parseBooleanQuery nulldate "not (acct:a)" @?= Right (Not $ Acct $ toRegexCI' "a", [])
,testCase "words''" $ do
(words'' [] "a b") @?= ["a","b"]
(words'' [] "'a b'") @?= ["a b"]
(words'' [] "not:a b") @?= ["not:a","b"]
(words'' [] "not:'a b'") @?= ["not:a b"]
(words'' [] "'not:a b'") @?= ["not:a b"]
(words'' ["desc:"] "not:desc:'a b'") @?= ["not:desc:a b"]
(words'' queryprefixes "\"acct:expenses:autres d\233penses\"") @?= ["acct:expenses:autres d\233penses"]
(words'' queryprefixes "\"") @?= ["\""]
,testCase "filterQuery" $ do
filterQuery queryIsDepth Any @?= Any
filterQuery queryIsDepth (Depth 1) @?= Depth 1
filterQuery (not.queryIsDepth) (And [And [StatusQ Cleared,Depth 1]]) @?= StatusQ Cleared
filterQuery queryIsDepth (And [Date nulldatespan, Not (Or [Any, Depth 1])]) @?= Any -- XXX unclear
,testCase "parseQueryTerm" $ do
parseQueryTerm nulldate "a" @?= Right (Acct $ toRegexCI' "a", [])
parseQueryTerm nulldate "acct:expenses:autres d\233penses" @?= Right (Acct $ toRegexCI' "expenses:autres d\233penses", [])
parseQueryTerm nulldate "not:desc:a b" @?= Right (Not $ Desc $ toRegexCI' "a b", [])
parseQueryTerm nulldate "status:1" @?= Right (StatusQ Cleared, [])
parseQueryTerm nulldate "status:*" @?= Right (StatusQ Cleared, [])
parseQueryTerm nulldate "status:!" @?= Right (StatusQ Pending, [])
parseQueryTerm nulldate "status:0" @?= Right (StatusQ Unmarked, [])
parseQueryTerm nulldate "status:" @?= Right (StatusQ Unmarked, [])
parseQueryTerm nulldate "payee:x" @?= (,[]) <$> payeeTag (Just "x")
parseQueryTerm nulldate "note:x" @?= (,[]) <$> noteTag (Just "x")
parseQueryTerm nulldate "real:1" @?= Right (Real True, [])
parseQueryTerm nulldate "date:2008" @?= Right (Date $ DateSpan (Just $ Flex $ fromGregorian 2008 01 01) (Just $ Flex $ fromGregorian 2009 01 01), [])
parseQueryTerm nulldate "date:from 2012/5/17" @?= Right (Date $ DateSpan (Just $ Exact $ fromGregorian 2012 05 17) Nothing, [])
parseQueryTerm nulldate "date:20180101-201804" @?= Right (Date $ DateSpan (Just $ Exact $ fromGregorian 2018 01 01) (Just $ Flex $ fromGregorian 2018 04 01), [])
parseQueryTerm nulldate "inacct:a" @?= Right (Any, [QueryOptInAcct "a"])
parseQueryTerm nulldate "tag:a" @?= Right (Tag (toRegexCI' "a") Nothing, [])
parseQueryTerm nulldate "tag:a=some value" @?= Right (Tag (toRegexCI' "a") (Just $ toRegexCI' "some value"), [])
parseQueryTerm nulldate "amt:<0" @?= Right (Amt Lt 0, [])
parseQueryTerm nulldate "amt:>10000.10" @?= Right (Amt AbsGt 10000.1, [])
,testCase "parseAmountQueryTerm" $ do
parseAmountQueryTerm "<0" @?= Right (Lt,0) -- special case for convenience, since AbsLt 0 would be always false
parseAmountQueryTerm ">0" @?= Right (Gt,0) -- special case for convenience and consistency with above
parseAmountQueryTerm " > - 0 " @?= Right (Gt,0) -- accept whitespace around the argument parts
parseAmountQueryTerm ">10000.10" @?= Right (AbsGt,10000.1)
parseAmountQueryTerm "=0.23" @?= Right (AbsEq,0.23)
parseAmountQueryTerm "0.23" @?= Right (AbsEq,0.23)
parseAmountQueryTerm "<=+0.23" @?= Right (LtEq,0.23)
parseAmountQueryTerm "-0.23" @?= Right (Eq,(-0.23))
assertLeft $ parseAmountQueryTerm "-0,23"
assertLeft $ parseAmountQueryTerm "=.23"
,testCase "queryStartDate" $ do
let small = Just $ fromGregorian 2000 01 01
big = Just $ fromGregorian 2000 01 02
queryStartDate False (And [Date $ DateSpan (Exact <$> small) Nothing, Date $ DateSpan (Exact <$> big) Nothing]) @?= big
queryStartDate False (And [Date $ DateSpan (Exact <$> small) Nothing, Date $ DateSpan Nothing Nothing]) @?= small
queryStartDate False (Or [Date $ DateSpan (Exact <$> small) Nothing, Date $ DateSpan (Exact <$> big) Nothing]) @?= small
queryStartDate False (Or [Date $ DateSpan (Exact <$> small) Nothing, Date $ DateSpan Nothing Nothing]) @?= Nothing
,testCase "queryEndDate" $ do
let small = Just $ fromGregorian 2000 01 01
big = Just $ fromGregorian 2000 01 02
queryEndDate False (And [Date $ DateSpan Nothing (Exact <$> small), Date $ DateSpan Nothing (Exact <$> big)]) @?= small
queryEndDate False (And [Date $ DateSpan Nothing (Exact <$> small), Date $ DateSpan Nothing Nothing]) @?= small
queryEndDate False (Or [Date $ DateSpan Nothing (Exact <$> small), Date $ DateSpan Nothing (Exact <$> big)]) @?= big
queryEndDate False (Or [Date $ DateSpan Nothing (Exact <$> small), Date $ DateSpan Nothing Nothing]) @?= Nothing
,testCase "matchesAccount" $ do
assertBool "" $ (Acct $ toRegex' "b:c") `matchesAccount` "a:bb:c:d"
assertBool "" $ not $ (Acct $ toRegex' "^a:b") `matchesAccount` "c:a:b"
assertBool "" $ Depth 2 `matchesAccount` "a"
assertBool "" $ Depth 2 `matchesAccount` "a:b"
assertBool "" $ not $ Depth 2 `matchesAccount` "a:b:c"
assertBool "" $ Date nulldatespan `matchesAccount` "a"
assertBool "" $ Date2 nulldatespan `matchesAccount` "a"
assertBool "" $ not $ Tag (toRegex' "a") Nothing `matchesAccount` "a"
,testCase "matchesAccountExtra" $ do
let tagq = Tag (toRegexCI' "type") Nothing
assertBool "" $ not $ matchesAccountExtra (const Nothing) (const []) tagq "a"
assertBool "" $ matchesAccountExtra (const Nothing) (const [("type","")]) tagq "a"
,testGroup "matchesPosting" [
testCase "positive match on cleared posting status" $
assertBool "" $ (StatusQ Cleared) `matchesPosting` nullposting{pstatus=Cleared}
,testCase "negative match on cleared posting status" $
assertBool "" $ not $ (Not $ StatusQ Cleared) `matchesPosting` nullposting{pstatus=Cleared}
,testCase "positive match on unmarked posting status" $
assertBool "" $ (StatusQ Unmarked) `matchesPosting` nullposting{pstatus=Unmarked}
,testCase "negative match on unmarked posting status" $
assertBool "" $ not $ (Not $ StatusQ Unmarked) `matchesPosting` nullposting{pstatus=Unmarked}
,testCase "positive match on true posting status acquired from transaction" $
assertBool "" $ (StatusQ Cleared) `matchesPosting` nullposting{pstatus=Unmarked,ptransaction=Just nulltransaction{tstatus=Cleared}}
,testCase "real:1 on real posting" $ assertBool "" $ (Real True) `matchesPosting` nullposting{ptype=RegularPosting}
,testCase "real:1 on virtual posting fails" $ assertBool "" $ not $ (Real True) `matchesPosting` nullposting{ptype=VirtualPosting}
,testCase "real:1 on balanced virtual posting fails" $ assertBool "" $ not $ (Real True) `matchesPosting` nullposting{ptype=BalancedVirtualPosting}
,testCase "acct:" $ assertBool "" $ (Acct $ toRegex' "'b") `matchesPosting` nullposting{paccount="'b"}
,testCase "tag:" $ do
assertBool "" $ not $ (Tag (toRegex' "a") (Just $ toRegex' "r$")) `matchesPosting` nullposting
assertBool "" $ (Tag (toRegex' "foo") Nothing) `matchesPosting` nullposting{ptags=[("foo","")]}
assertBool "" $ (Tag (toRegex' "foo") Nothing) `matchesPosting` nullposting{ptags=[("foo","baz")]}
assertBool "" $ (Tag (toRegex' "foo") (Just $ toRegex' "a")) `matchesPosting` nullposting{ptags=[("foo","bar")]}
assertBool "" $ not $ (Tag (toRegex' "foo") (Just $ toRegex' "a$")) `matchesPosting` nullposting{ptags=[("foo","bar")]}
assertBool "" $ not $ (Tag (toRegex' " foo ") (Just $ toRegex' "a")) `matchesPosting` nullposting{ptags=[("foo","bar")]}
assertBool "" $ not $ (Tag (toRegex' "foo foo") (Just $ toRegex' " ar ba ")) `matchesPosting` nullposting{ptags=[("foo foo","bar bar")]}
,testCase "a tag match on a posting also sees inherited tags" $ assertBool "" $ (Tag (toRegex' "txntag") Nothing) `matchesPosting` nullposting{ptransaction=Just nulltransaction{ttags=[("txntag","")]}}
,testCase "cur:" $ do
let toSym = fst . either error' id . parseQueryTerm (fromGregorian 2000 01 01) . ("cur:"<>)
assertBool "" $ not $ toSym "$" `matchesPosting` nullposting{pamount=mixedAmount $ usd 1} -- becomes "^$$", ie testing for null symbol
assertBool "" $ (toSym "\\$") `matchesPosting` nullposting{pamount=mixedAmount $ usd 1} -- have to quote $ for regexpr
assertBool "" $ (toSym "shekels") `matchesPosting` nullposting{pamount=mixedAmount nullamt{acommodity="shekels"}}
assertBool "" $ not $ (toSym "shek") `matchesPosting` nullposting{pamount=mixedAmount nullamt{acommodity="shekels"}}
]
,testCase "matchesTransaction" $ do
assertBool "" $ Any `matchesTransaction` nulltransaction
assertBool "" $ not $ (Desc $ toRegex' "x x") `matchesTransaction` nulltransaction{tdescription="x"}
assertBool "" $ (Desc $ toRegex' "x x") `matchesTransaction` nulltransaction{tdescription="x x"}
-- see posting for more tag tests
assertBool "" $ (Tag (toRegex' "foo") (Just $ toRegex' "a")) `matchesTransaction` nulltransaction{ttags=[("foo","bar")]}
assertBool "" $ (Tag (toRegex' "payee") (Just $ toRegex' "payee")) `matchesTransaction` nulltransaction{tdescription="payee|note"}
assertBool "" $ (Tag (toRegex' "note") (Just $ toRegex' "note")) `matchesTransaction` nulltransaction{tdescription="payee|note"}
-- a tag match on a transaction also matches posting tags
assertBool "" $ (Tag (toRegex' "postingtag") Nothing) `matchesTransaction` nulltransaction{tpostings=[nullposting{ptags=[("postingtag","")]}]}
]