hledger/hledger-lib/Hledger/Utils.hs
2017-01-12 16:24:53 -08:00

212 lines
6.6 KiB
Haskell
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

{-|
Standard imports and utilities which are useful everywhere, or needed low
in the module hierarchy. This is the bottom of hledger's module graph.
-}
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 Test.HUnit,
-- 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,
module Hledger.Utils.Tree,
-- Debug.Trace.trace,
-- module Data.PPrint,
-- module Hledger.Utils.UTF8IOCompat
SystemString,fromSystemString,toSystemString,error',userError',
-- the rest need to be done in each module I think
)
where
import Control.Monad (liftM)
-- import Data.Char
import Data.List
-- import Data.Maybe
-- import Data.PPrint
import Data.Text (Text)
import qualified Data.Text.IO as T
import Data.Time.Clock
import Data.Time.LocalTime
-- import Data.Text (Text)
-- import qualified Data.Text as T
import System.Directory (getHomeDirectory)
import System.FilePath((</>), isRelative)
import System.IO
-- import Text.Printf
-- import qualified Data.Map as Map
import Hledger.Utils.Debug
import Hledger.Utils.Parse
import Hledger.Utils.Regex
import Hledger.Utils.String
import Hledger.Utils.Text
import Hledger.Utils.Test
import Hledger.Utils.Tree
-- import Prelude hiding (readFile,writeFile,appendFile,getContents,putStr,putStrLn)
-- import Hledger.Utils.UTF8IOCompat (readFile,writeFile,appendFile,getContents,putStr,putStrLn)
import Hledger.Utils.UTF8IOCompat (SystemString,fromSystemString,toSystemString,error',userError')
-- 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
-- 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
isLeft :: Either a b -> Bool
isLeft (Left _) = True
isLeft _ = False
isRight :: Either a b -> Bool
isRight = not . isLeft
-- | Apply a function the specified number of times. Possibly uses O(n) stack ?
applyN :: Int -> (a -> a) -> a -> a
applyN n f = (!! 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) `liftM` expandPath' p
where
expandPath' ('~':'/':p) = (</> p) <$> getHomeDirectory
expandPath' ('~':'\\':p) = (</> p) <$> getHomeDirectory
expandPath' ('~':_) = ioError $ userError "~USERNAME in paths is not supported"
expandPath' p = return p
firstJust ms = case dropWhile (==Nothing) ms of
[] -> Nothing
(md:_) -> md
-- | Read a file in universal newline mode, handling any of the usual line ending conventions.
readFile' :: FilePath -> IO Text
readFile' name = do
h <- openFile name ReadMode
hSetNewlineMode h universalNewlineMode
T.hGetContents h
-- | Read a file in universal newline mode, handling any of the usual line ending conventions.
readFileAnyLineEnding :: FilePath -> IO Text
readFileAnyLineEnding path = do
h <- openFile path ReadMode
hSetNewlineMode h universalNewlineMode
T.hGetContents h
-- | Read the given file, or standard input if the path is "-", using
-- universal newline mode.
readFileOrStdinAnyLineEnding :: String -> IO Text
readFileOrStdinAnyLineEnding f = do
h <- fileHandle f
hSetNewlineMode h universalNewlineMode
T.hGetContents h
where
fileHandle "-" = return stdin
fileHandle f = openFile f ReadMode
-- | 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 doesnt leak space
{-# INLINABLE sumStrict #-}
sumStrict :: Num a => [a] -> a
sumStrict = foldl' (+) 0
-- | Strict version of maximum that doesnt leak space
{-# INLINABLE maximumStrict #-}
maximumStrict :: Ord a => [a] -> a
maximumStrict = foldl1' max
-- | Strict version of minimum that doesnt 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 Mitchells
-- trick of limiting the stack size to discover space leaks doesnt
-- 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
{-# INLINABLE mapM' #-}
mapM' :: Monad f => (a -> f b) -> [a] -> f [b]
mapM' f = sequence' . map f