-- | Text formatting helpers, ported from String as needed. -- There may be better alternatives out there. {-# LANGUAGE OverloadedStrings #-} module Hledger.Utils.Text -- ( -- -- * misc -- lowercase, -- uppercase, -- underline, -- stripbrackets, -- unbracket, -- -- quoting -- quoteIfSpaced, -- quoteIfNeeded, -- singleQuoteIfNeeded, -- -- quotechars, -- -- whitespacechars, -- escapeDoubleQuotes, -- escapeSingleQuotes, -- escapeQuotes, -- words', -- unwords', -- stripquotes, -- isSingleQuoted, -- isDoubleQuoted, -- -- * single-line layout -- strip, -- lstrip, -- rstrip, -- chomp, -- elideLeft, -- elideRight, -- formatString, -- -- * multi-line layout -- concatTopPadded, -- concatBottomPadded, -- concatOneLine, -- vConcatLeftAligned, -- vConcatRightAligned, -- padtop, -- padbottom, -- padleft, -- padright, -- cliptopleft, -- fitto, -- -- * wide-character-aware layout -- strWidth, -- textTakeWidth, -- fitString, -- fitStringMulti, -- padLeftWide, -- padRightWide -- ) where -- import Data.Char import Data.List import Data.Monoid import Data.Text (Text) import qualified Data.Text as T -- import Text.Parsec -- import Text.Printf (printf) -- import Hledger.Utils.Parse -- import Hledger.Utils.Regex import Hledger.Utils.String (charWidth) -- lowercase, uppercase :: String -> String -- lowercase = map toLower -- uppercase = map toUpper -- | Remove leading and trailing whitespace. textstrip :: Text -> Text textstrip = textlstrip . textrstrip -- | Remove leading whitespace. textlstrip :: Text -> Text textlstrip = T.dropWhile (`elem` (" \t" :: String)) :: Text -> Text -- XXX isSpace ? -- | Remove trailing whitespace. textrstrip = T.reverse . textlstrip . T.reverse textrstrip :: Text -> Text -- -- | Remove trailing newlines/carriage returns. -- chomp :: String -> String -- chomp = reverse . dropWhile (`elem` "\r\n") . reverse -- stripbrackets :: String -> String -- stripbrackets = dropWhile (`elem` "([") . reverse . dropWhile (`elem` "])") . reverse :: String -> String -- elideLeft :: Int -> String -> String -- elideLeft width s = -- if length s > width then ".." ++ reverse (take (width - 2) $ reverse s) else s textElideRight :: Int -> Text -> Text textElideRight width t = if T.length t > width then T.take (width - 2) t <> ".." else t -- -- | Clip and pad a string to a minimum & maximum width, and/or left/right justify it. -- -- Works on multi-line strings too (but will rewrite non-unix line endings). -- formatString :: Bool -> Maybe Int -> Maybe Int -> String -> String -- formatString leftJustified minwidth maxwidth s = intercalate "\n" $ map (printf fmt) $ lines s -- where -- justify = if leftJustified then "-" else "" -- minwidth' = maybe "" show minwidth -- maxwidth' = maybe "" (("."++).show) maxwidth -- fmt = "%" ++ justify ++ minwidth' ++ maxwidth' ++ "s" -- underline :: String -> String -- underline s = s' ++ replicate (length s) '-' ++ "\n" -- where s' -- | last s == '\n' = s -- | otherwise = s ++ "\n" -- | Wrap a string in double quotes, and \-prefix any embedded single -- quotes, if it contains whitespace and is not already single- or -- double-quoted. quoteIfSpaced :: T.Text -> T.Text quoteIfSpaced s | isSingleQuoted s || isDoubleQuoted s = s | not $ any (`elem` (T.unpack s)) whitespacechars = s | otherwise = "'"<>escapeSingleQuotes s<>"'" -- -- | Wrap a string in double quotes, and \-prefix any embedded single -- -- quotes, if it contains whitespace and is not already single- or -- -- double-quoted. -- quoteIfSpaced :: String -> String -- quoteIfSpaced s | isSingleQuoted s || isDoubleQuoted s = s -- | not $ any (`elem` s) whitespacechars = s -- | otherwise = "'"++escapeSingleQuotes s++"'" -- -- | Double-quote this string if it contains whitespace, single quotes -- -- or double-quotes, escaping the quotes as needed. -- quoteIfNeeded :: T.Text -> T.Text -- quoteIfNeeded s | any (`elem` T.unpack s) (quotechars++whitespacechars) = "\"" <> escapeDoubleQuotes s <> "\"" -- | otherwise = s -- -- | Single-quote this string if it contains whitespace or double-quotes. -- -- No good for strings containing single quotes. -- singleQuoteIfNeeded :: String -> String -- singleQuoteIfNeeded s | any (`elem` s) whitespacechars = "'"++s++"'" -- | otherwise = s quotechars, whitespacechars :: [Char] quotechars = "'\"" whitespacechars = " \t\n\r" escapeDoubleQuotes :: T.Text -> T.Text escapeDoubleQuotes = T.replace "\"" "\"" escapeSingleQuotes :: T.Text -> T.Text escapeSingleQuotes = T.replace "'" "\'" -- escapeQuotes :: String -> String -- escapeQuotes = regexReplace "([\"'])" "\\1" -- -- | Quote-aware version of words - don't split on spaces which are inside quotes. -- -- NB correctly handles "a'b" but not "''a''". Can raise an error if parsing fails. -- words' :: String -> [String] -- words' "" = [] -- words' s = map stripquotes $ fromparse $ parsewith p s -- where -- p = do ss <- (singleQuotedPattern <|> doubleQuotedPattern <|> pattern) `sepBy` many1 spacenonewline -- -- eof -- return ss -- pattern = many (noneOf whitespacechars) -- singleQuotedPattern = between (char '\'') (char '\'') (many $ noneOf "'") -- doubleQuotedPattern = between (char '"') (char '"') (many $ noneOf "\"") -- -- | Quote-aware version of unwords - single-quote strings which contain whitespace -- unwords' :: [Text] -> Text -- unwords' = T.unwords . map quoteIfNeeded -- | Strip one matching pair of single or double quotes on the ends of a string. stripquotes :: Text -> Text stripquotes s = if isSingleQuoted s || isDoubleQuoted s then T.init $ T.tail s else s isSingleQuoted :: Text -> Bool isSingleQuoted s = T.length (T.take 2 s) == 2 && T.head s == '\'' && T.last s == '\'' isDoubleQuoted :: Text -> Bool isDoubleQuoted s = T.length (T.take 2 s) == 2 && T.head s == '"' && T.last s == '"' textUnbracket :: Text -> Text textUnbracket s | (T.head s == '[' && T.last s == ']') || (T.head s == '(' && T.last s == ')') = T.init $ T.tail s | otherwise = s -- | Join several multi-line strings as side-by-side rectangular strings of the same height, top-padded. -- Treats wide characters as double width. textConcatTopPadded :: [Text] -> Text textConcatTopPadded ts = T.intercalate "\n" $ map T.concat $ transpose padded where lss = map T.lines ts :: [[Text]] h = maximum $ map length lss ypad ls = replicate (difforzero h (length ls)) "" ++ ls xpad ls = map (textPadLeftWide w) ls where w | null ls = 0 | otherwise = maximum $ map textWidth ls padded = map (xpad . ypad) lss :: [[Text]] -- -- | Join several multi-line strings as side-by-side rectangular strings of the same height, bottom-padded. -- -- Treats wide characters as double width. -- concatBottomPadded :: [String] -> String -- concatBottomPadded strs = intercalate "\n" $ map concat $ transpose padded -- where -- lss = map lines strs -- h = maximum $ map length lss -- ypad ls = ls ++ replicate (difforzero h (length ls)) "" -- xpad ls = map (padRightWide w) ls where w | null ls = 0 -- | otherwise = maximum $ map strWidth ls -- padded = map (xpad . ypad) lss -- -- | Join multi-line strings horizontally, after compressing each of -- -- them to a single line with a comma and space between each original line. -- concatOneLine :: [String] -> String -- concatOneLine strs = concat $ map ((intercalate ", ").lines) strs -- -- | Join strings vertically, left-aligned and right-padded. -- vConcatLeftAligned :: [String] -> String -- vConcatLeftAligned ss = intercalate "\n" $ map showfixedwidth ss -- where -- showfixedwidth = printf (printf "%%-%ds" width) -- width = maximum $ map length ss -- -- | Join strings vertically, right-aligned and left-padded. -- vConcatRightAligned :: [String] -> String -- vConcatRightAligned ss = intercalate "\n" $ map showfixedwidth ss -- where -- showfixedwidth = printf (printf "%%%ds" width) -- width = maximum $ map length ss -- -- | Convert a multi-line string to a rectangular string top-padded to the specified height. -- padtop :: Int -> String -> String -- padtop h s = intercalate "\n" xpadded -- where -- ls = lines s -- sh = length ls -- sw | null ls = 0 -- | otherwise = maximum $ map length ls -- ypadded = replicate (difforzero h sh) "" ++ ls -- xpadded = map (padleft sw) ypadded -- -- | Convert a multi-line string to a rectangular string bottom-padded to the specified height. -- padbottom :: Int -> String -> String -- padbottom h s = intercalate "\n" xpadded -- where -- ls = lines s -- sh = length ls -- sw | null ls = 0 -- | otherwise = maximum $ map length ls -- ypadded = ls ++ replicate (difforzero h sh) "" -- xpadded = map (padleft sw) ypadded difforzero :: (Num a, Ord a) => a -> a -> a difforzero a b = maximum [(a - b), 0] -- -- | Convert a multi-line string to a rectangular string left-padded to the specified width. -- -- Treats wide characters as double width. -- padleft :: Int -> String -> String -- padleft w "" = concat $ replicate w " " -- padleft w s = intercalate "\n" $ map (printf (printf "%%%ds" w)) $ lines s -- -- | Convert a multi-line string to a rectangular string right-padded to the specified width. -- -- Treats wide characters as double width. -- padright :: Int -> String -> String -- padright w "" = concat $ replicate w " " -- padright w s = intercalate "\n" $ map (printf (printf "%%-%ds" w)) $ lines s -- -- | Clip a multi-line string to the specified width and height from the top left. -- cliptopleft :: Int -> Int -> String -> String -- cliptopleft w h = intercalate "\n" . take h . map (take w) . lines -- -- | Clip and pad a multi-line string to fill the specified width and height. -- fitto :: Int -> Int -> String -> String -- fitto w h s = intercalate "\n" $ take h $ rows ++ repeat blankline -- where -- rows = map (fit w) $ lines s -- fit w = take w . (++ repeat ' ') -- blankline = replicate w ' ' -- -- Functions below treat wide (eg CJK) characters as double-width. -- | General-purpose wide-char-aware single-line text layout function. -- It can left- or right-pad a short string to a minimum width. -- It can left- or right-clip a long string to a maximum width, optionally inserting an ellipsis (the third argument). -- It clips and pads on the right when the fourth argument is true, otherwise on the left. -- It treats wide characters as double width. fitText :: Maybe Int -> Maybe Int -> Bool -> Bool -> Text -> Text fitText mminwidth mmaxwidth ellipsify rightside s = (clip . pad) s where clip :: Text -> Text clip s = case mmaxwidth of Just w | textWidth s > w -> case rightside of True -> textTakeWidth (w - T.length ellipsis) s <> ellipsis False -> ellipsis <> T.reverse (textTakeWidth (w - T.length ellipsis) $ T.reverse s) | otherwise -> s where ellipsis = if ellipsify then ".." else "" Nothing -> s pad :: Text -> Text pad s = case mminwidth of Just w | sw < w -> case rightside of True -> s <> T.replicate (w - sw) " " False -> T.replicate (w - sw) " " <> s | otherwise -> s Nothing -> s where sw = textWidth s -- -- | A version of fitString that works on multi-line strings, -- -- separate for now to avoid breakage. -- -- This will rewrite any line endings to unix newlines. -- fitStringMulti :: Maybe Int -> Maybe Int -> Bool -> Bool -> String -> String -- fitStringMulti mminwidth mmaxwidth ellipsify rightside s = -- (intercalate "\n" . map (fitString mminwidth mmaxwidth ellipsify rightside) . lines) s -- | Left-pad a text to the specified width. -- Treats wide characters as double width. -- Works on multi-line texts too (but will rewrite non-unix line endings). textPadLeftWide :: Int -> Text -> Text textPadLeftWide w "" = T.replicate w " " textPadLeftWide w s = T.intercalate "\n" $ map (fitText (Just w) Nothing False False) $ T.lines s -- XXX not yet replaceable by -- padLeftWide w = fitStringMulti (Just w) Nothing False False -- | Right-pad a string to the specified width. -- Treats wide characters as double width. -- Works on multi-line strings too (but will rewrite non-unix line endings). textPadRightWide :: Int -> Text -> Text textPadRightWide w "" = T.replicate w " " textPadRightWide w s = T.intercalate "\n" $ map (fitText (Just w) Nothing False True) $ T.lines s -- XXX not yet replaceable by -- padRightWide w = fitStringMulti (Just w) Nothing False True -- | Double-width-character-aware string truncation. Take as many -- characters as possible from a string without exceeding the -- specified width. Eg textTakeWidth 3 "りんご" = "り". textTakeWidth :: Int -> Text -> Text textTakeWidth _ "" = "" textTakeWidth 0 _ = "" textTakeWidth w t | not (T.null t), let c = T.head t, let cw = charWidth c, cw <= w = T.cons c $ textTakeWidth (w-cw) (T.tail t) | otherwise = "" -- -- from Pandoc (copyright John MacFarlane, GPL) -- -- see also http://unicode.org/reports/tr11/#Description -- | Calculate the designated render width of a string, taking into -- account wide characters and line breaks (the longest line within a -- multi-line string determines the width ). textWidth :: Text -> Int textWidth "" = 0 textWidth s = maximum $ map (T.foldr (\a b -> charWidth a + b) 0) $ T.lines s -- -- | Get the designated render width of a character: 0 for a combining -- -- character, 1 for a regular character, 2 for a wide character. -- -- (Wide characters are rendered as exactly double width in apps and -- -- fonts that support it.) (From Pandoc.) -- charWidth :: Char -> Int -- charWidth c = -- case c of -- _ | c < '\x0300' -> 1 -- | c >= '\x0300' && c <= '\x036F' -> 0 -- combining -- | c >= '\x0370' && c <= '\x10FC' -> 1 -- | c >= '\x1100' && c <= '\x115F' -> 2 -- | c >= '\x1160' && c <= '\x11A2' -> 1 -- | c >= '\x11A3' && c <= '\x11A7' -> 2 -- | c >= '\x11A8' && c <= '\x11F9' -> 1 -- | c >= '\x11FA' && c <= '\x11FF' -> 2 -- | c >= '\x1200' && c <= '\x2328' -> 1 -- | c >= '\x2329' && c <= '\x232A' -> 2 -- | c >= '\x232B' && c <= '\x2E31' -> 1 -- | c >= '\x2E80' && c <= '\x303E' -> 2 -- | c == '\x303F' -> 1 -- | c >= '\x3041' && c <= '\x3247' -> 2 -- | c >= '\x3248' && c <= '\x324F' -> 1 -- ambiguous -- | c >= '\x3250' && c <= '\x4DBF' -> 2 -- | c >= '\x4DC0' && c <= '\x4DFF' -> 1 -- | c >= '\x4E00' && c <= '\xA4C6' -> 2 -- | c >= '\xA4D0' && c <= '\xA95F' -> 1 -- | c >= '\xA960' && c <= '\xA97C' -> 2 -- | c >= '\xA980' && c <= '\xABF9' -> 1 -- | c >= '\xAC00' && c <= '\xD7FB' -> 2 -- | c >= '\xD800' && c <= '\xDFFF' -> 1 -- | c >= '\xE000' && c <= '\xF8FF' -> 1 -- ambiguous -- | c >= '\xF900' && c <= '\xFAFF' -> 2 -- | c >= '\xFB00' && c <= '\xFDFD' -> 1 -- | c >= '\xFE00' && c <= '\xFE0F' -> 1 -- ambiguous -- | c >= '\xFE10' && c <= '\xFE19' -> 2 -- | c >= '\xFE20' && c <= '\xFE26' -> 1 -- | c >= '\xFE30' && c <= '\xFE6B' -> 2 -- | c >= '\xFE70' && c <= '\xFEFF' -> 1 -- | c >= '\xFF01' && c <= '\xFF60' -> 2 -- | c >= '\xFF61' && c <= '\x16A38' -> 1 -- | c >= '\x1B000' && c <= '\x1B001' -> 2 -- | c >= '\x1D000' && c <= '\x1F1FF' -> 1 -- | c >= '\x1F200' && c <= '\x1F251' -> 2 -- | c >= '\x1F300' && c <= '\x1F773' -> 1 -- | c >= '\x20000' && c <= '\x3FFFD' -> 2 -- | otherwise -> 1