{-| Standard imports and utilities which are useful everywhere, or needed low in the module hierarchy. This is the bottom of hledger's module graph. -} {-# LANGUAGE LambdaCase #-} module Hledger.Utils (---- provide these frequently used modules - or not, for clearer api: -- module Control.Monad, -- module Data.List, -- module Data.Maybe, -- module Data.Time.Calendar, -- module Data.Time.Clock, -- module Data.Time.LocalTime, -- module Data.Tree, -- module Text.RegexPR, -- module Text.Printf, ---- all of this one: module Hledger.Utils, module Hledger.Utils.Debug, module Hledger.Utils.Parse, module Hledger.Utils.Regex, module Hledger.Utils.String, module Hledger.Utils.Text, module Hledger.Utils.Test, -- Debug.Trace.trace, -- module Data.PPrint, -- the rest need to be done in each module I think ) where import Control.Monad (when) import Data.Char (toLower) import Data.FileEmbed (makeRelativeToProject, embedStringFile) import Data.List.Extra (foldl', foldl1', uncons, unsnoc) import qualified Data.Set as Set import Data.Text (Text) import qualified Data.Text.IO as T import qualified Data.Text.Lazy.Builder as TB import Data.Time.Clock (getCurrentTime) import Data.Time.LocalTime (LocalTime, ZonedTime, getCurrentTimeZone, utcToLocalTime, utcToZonedTime) import Language.Haskell.TH (DecsQ, Name, mkName, nameBase) -- import Language.Haskell.TH.Quote (QuasiQuoter(..)) import Language.Haskell.TH.Syntax (Q, Exp) import Lens.Micro ((&), (.~)) import Lens.Micro.TH (DefName(TopName), lensClass, lensField, makeLensesWith, classyRules) import System.Console.ANSI (Color,ColorIntensity,ConsoleLayer(..), SGR(..), setSGRCode) import System.Directory (getHomeDirectory) import System.FilePath (isRelative, ()) import System.IO (Handle, IOMode (..), hGetEncoding, hSetEncoding, hSetNewlineMode, openFile, stdin, universalNewlineMode, utf8_bom) import Hledger.Utils.Debug import Hledger.Utils.Parse import Hledger.Utils.Regex import Hledger.Utils.String import Hledger.Utils.Text import Hledger.Utils.Test -- tuples first3 (x,_,_) = x second3 (_,x,_) = x third3 (_,_,x) = x first4 (x,_,_,_) = x second4 (_,x,_,_) = x third4 (_,_,x,_) = x fourth4 (_,_,_,x) = x first5 (x,_,_,_,_) = x second5 (_,x,_,_,_) = x third5 (_,_,x,_,_) = x fourth5 (_,_,_,x,_) = x fifth5 (_,_,_,_,x) = x first6 (x,_,_,_,_,_) = x second6 (_,x,_,_,_,_) = x third6 (_,_,x,_,_,_) = x fourth6 (_,_,_,x,_,_) = x fifth6 (_,_,_,_,x,_) = x sixth6 (_,_,_,_,_,x) = x -- currying curry2 :: ((a, b) -> c) -> a -> b -> c curry2 f x y = f (x, y) uncurry2 :: (a -> b -> c) -> (a, b) -> c uncurry2 f (x, y) = f x y curry3 :: ((a, b, c) -> d) -> a -> b -> c -> d curry3 f x y z = f (x, y, z) uncurry3 :: (a -> b -> c -> d) -> (a, b, c) -> d uncurry3 f (x, y, z) = f x y z curry4 :: ((a, b, c, d) -> e) -> a -> b -> c -> d -> e curry4 f w x y z = f (w, x, y, z) uncurry4 :: (a -> b -> c -> d -> e) -> (a, b, c, d) -> e uncurry4 f (w, x, y, z) = f w x y z -- lists splitAtElement :: Eq a => a -> [a] -> [[a]] splitAtElement x l = case l of [] -> [] e:es | e==x -> split es es -> split es where split es = let (first,rest) = break (x==) es in first : splitAtElement x rest -- text -- time getCurrentLocalTime :: IO LocalTime getCurrentLocalTime = do t <- getCurrentTime tz <- getCurrentTimeZone return $ utcToLocalTime tz t getCurrentZonedTime :: IO ZonedTime getCurrentZonedTime = do t <- getCurrentTime tz <- getCurrentTimeZone return $ utcToZonedTime tz t -- misc -- | Apply a function the specified number of times, -- which should be > 0 (otherwise does nothing). -- Possibly uses O(n) stack ? applyN :: Int -> (a -> a) -> a -> a applyN n f | n < 1 = id | otherwise = (!! n) . iterate f -- from protolude, compare -- applyN :: Int -> (a -> a) -> a -> a -- applyN n f = X.foldr (.) identity (X.replicate n f) -- | Convert a possibly relative, possibly tilde-containing file path to an absolute one, -- given the current directory. ~username is not supported. Leave "-" unchanged. -- Can raise an error. expandPath :: FilePath -> FilePath -> IO FilePath -- general type sig for use in reader parsers expandPath _ "-" = return "-" expandPath curdir p = (if isRelative p then (curdir ) else id) <$> expandHomePath p -- PARTIAL: -- | Expand user home path indicated by tilde prefix expandHomePath :: FilePath -> IO FilePath expandHomePath = \case ('~':'/':p) -> ( p) <$> getHomeDirectory ('~':'\\':p) -> ( p) <$> getHomeDirectory ('~':_) -> ioError $ userError "~USERNAME in paths is not supported" p -> return p -- | Read text from a file, -- converting any \r\n line endings to \n,, -- using the system locale's text encoding, -- ignoring any utf8 BOM prefix (as seen in paypal's 2018 CSV, eg) if that encoding is utf8. readFilePortably :: FilePath -> IO Text readFilePortably f = openFile f ReadMode >>= readHandlePortably -- | Like readFilePortably, but read from standard input if the path is "-". readFileOrStdinPortably :: String -> IO Text readFileOrStdinPortably f = openFileOrStdin f ReadMode >>= readHandlePortably where openFileOrStdin :: String -> IOMode -> IO Handle openFileOrStdin "-" _ = return stdin openFileOrStdin f m = openFile f m readHandlePortably :: Handle -> IO Text readHandlePortably h = do hSetNewlineMode h universalNewlineMode menc <- hGetEncoding h when (fmap show menc == Just "UTF-8") $ -- XXX no Eq instance, rely on Show hSetEncoding h utf8_bom T.hGetContents h -- | Total version of maximum, for integral types, giving 0 for an empty list. maximum' :: Integral a => [a] -> a maximum' [] = 0 maximum' xs = maximumStrict xs -- | Strict version of sum that doesn’t leak space {-# INLINABLE sumStrict #-} sumStrict :: Num a => [a] -> a sumStrict = foldl' (+) 0 -- | Strict version of maximum that doesn’t leak space {-# INLINABLE maximumStrict #-} maximumStrict :: Ord a => [a] -> a maximumStrict = foldl1' max -- | Strict version of minimum that doesn’t leak space {-# INLINABLE minimumStrict #-} minimumStrict :: Ord a => [a] -> a minimumStrict = foldl1' min -- | This is a version of sequence based on difference lists. It is -- slightly faster but we mostly use it because it uses the heap -- instead of the stack. This has the advantage that Neil Mitchell’s -- trick of limiting the stack size to discover space leaks doesn’t -- show this as a false positive. {-# INLINABLE sequence' #-} sequence' :: Monad f => [f a] -> f [a] sequence' ms = do h <- go id ms return (h []) where go h [] = return h go h (m:ms) = do x <- m go (h . (x :)) ms -- | Like mapM but uses sequence'. {-# INLINABLE mapM' #-} mapM' :: Monad f => (a -> f b) -> [a] -> f [b] mapM' f = sequence' . map f -- | Simpler alias for errorWithoutStackTrace error' :: String -> a error' = errorWithoutStackTrace -- | A version of errorWithoutStackTrace that adds a usage hint. usageError :: String -> a usageError = error' . (++ " (use -h to see usage)") -- | Like embedFile, but takes a path relative to the package directory. -- Similar to embedFileRelative ? embedFileRelative :: FilePath -> Q Exp embedFileRelative f = makeRelativeToProject f >>= embedStringFile -- -- | Like hereFile, but takes a path relative to the package directory. -- -- Similar to embedFileRelative ? -- hereFileRelative :: FilePath -> Q Exp -- hereFileRelative f = makeRelativeToProject f >>= hereFileExp -- where -- QuasiQuoter{quoteExp=hereFileExp} = hereFile -- | Wrap a string in ANSI codes to set and reset foreground colour. color :: ColorIntensity -> Color -> String -> String color int col s = setSGRCode [SetColor Foreground int col] ++ s ++ setSGRCode [] -- | Wrap a string in ANSI codes to set and reset background colour. bgColor :: ColorIntensity -> Color -> String -> String bgColor int col s = setSGRCode [SetColor Background int col] ++ s ++ setSGRCode [] -- | Wrap a WideBuilder in ANSI codes to set and reset foreground colour. colorB :: ColorIntensity -> Color -> WideBuilder -> WideBuilder colorB int col (WideBuilder s w) = WideBuilder (TB.fromString (setSGRCode [SetColor Foreground int col]) <> s <> TB.fromString (setSGRCode [])) w -- | Wrap a WideBuilder in ANSI codes to set and reset background colour. bgColorB :: ColorIntensity -> Color -> WideBuilder -> WideBuilder bgColorB int col (WideBuilder s w) = WideBuilder (TB.fromString (setSGRCode [SetColor Background int col]) <> s <> TB.fromString (setSGRCode [])) w -- | Make classy lenses for Hledger options fields. -- This is intended to be used with BalancingOpts, InputOpt, ReportOpts, -- ReportSpec, and CliOpts. -- When run on X, it will create a typeclass named HasX (except for ReportOpts, -- which will be named HasReportOptsNoUpdate) containing all the lenses for that type. -- If the field name starts with an underscore, the lens name will be created -- by stripping the underscore from the front on the name. If the field name ends with -- an underscore, the field name ends with an underscore, the lens name will be -- mostly created by stripping the underscore, but a few names for which this -- would create too many conflicts instead have a second underscore appended. -- ReportOpts fields for which updating them requires updating the query in -- ReportSpec are instead names by dropping the trailing underscore and -- appending NoUpdate to the name, e.g. querystring_ -> querystringNoUpdate. -- -- There are a few reasons for the complicated rules. -- - We have some legacy field names ending in an underscore (e.g. value_) -- which we want to temporarily accommodate, before eventually switching to -- a more modern style (e.g. _rsReportOpts) -- - Certain fields in ReportOpts need to update the enclosing ReportSpec when -- they are updated, and it is a common programming error to forget to do -- this. We append NoUpdate to those lenses which will not update the -- enclosing field, and reserve the shorter name for manually define lenses -- (or at least something lens-like) which will update the ReportSpec. -- cf. the lengthy discussion here and in surrounding comments: -- https://github.com/simonmichael/hledger/pull/1545#issuecomment-881974554 makeHledgerClassyLenses :: Name -> DecsQ makeHledgerClassyLenses x = flip makeLensesWith x $ classyRules & lensField .~ (\_ _ n -> fieldName $ nameBase n) & lensClass .~ (className . nameBase) where fieldName n | Just ('_', name) <- uncons n = [TopName (mkName name)] | Just (name, '_') <- unsnoc n, name `Set.member` queryFields = [TopName (mkName $ name ++ "NoUpdate")] | Just (name, '_') <- unsnoc n, name `Set.member` commonFields = [TopName (mkName $ name ++ "__")] | Just (name, '_') <- unsnoc n = [TopName (mkName name)] | otherwise = [] -- Fields which would cause too many conflicts if we exposed lenses with these names. commonFields = Set.fromList [ "empty", "drop", "color", "transpose" -- ReportOpts , "anon", "new", "auto" -- InputOpts , "rawopts", "file", "debug", "width" -- CliOpts ] -- When updating some fields of ReportOpts within a ReportSpec, we need to -- update the rsQuery term as well. To do this we implement a special -- HasReportOpts class with some special behaviour. We therefore give the -- basic lenses a special NoUpdate name to avoid conflicts. className "ReportOpts" = Just (mkName "HasReportOptsNoUpdate", mkName "reportOptsNoUpdate") className (x:xs) = Just (mkName ("Has" ++ x:xs), mkName (toLower x : xs)) className [] = Nothing -- Fields of ReportOpts which need to update the Query when they are updated. queryFields = Set.fromList ["period", "statuses", "depth", "date2", "real", "querystring"] tests_Utils = testGroup "Utils" [ tests_Text ]