module GF.Text.Lexing (stringOp,opInEnv) where
import GF.Text.Transliterations
import Data.Char
import Data.List (intersperse)
-- lexers and unlexers - they work on space-separated word strings
stringOp :: String -> Maybe (String -> String)
stringOp name = case name of
"chars" -> Just $ appLexer (filter (not . all isSpace) . map return)
"lextext" -> Just $ appLexer lexText
"lexcode" -> Just $ appLexer lexCode
"lexmixed" -> Just $ appLexer lexMixed
"words" -> Just $ appLexer words
"bind" -> Just $ appUnlexer bindTok
"unchars" -> Just $ appUnlexer concat
"unlextext" -> Just $ capitInit . appUnlexer (unlexText . unquote)
"unlexcode" -> Just $ appUnlexer unlexCode
"unlexmixed" -> Just $ capitInit . appUnlexer (unlexMixed . unquote)
"unwords" -> Just $ appUnlexer unwords
"to_html" -> Just wrapHTML
_ -> transliterate name
-- perform op in environments beg--end, t.ex. between "--"
--- suboptimal implementation
opInEnv :: String -> String -> (String -> String) -> (String -> String)
opInEnv beg end op = concat . altern False . chop (lbeg, beg) [] where
chop mk@(lg, mark) s0 s =
let (tag,rest) = splitAt lg s in
if tag==mark then (reverse s0) : mark : chop (switch mk) [] rest
else case s of
c:cs -> chop mk (c:s0) cs
[] -> [reverse s0]
switch (lg,mark) = if mark==beg then (lend,end) else (lbeg,beg)
(lbeg,lend) = (length beg, length end)
altern m ts = case ts of
t:ws | not m && t==beg -> t : altern True ws
t:ws | m && t==end -> t : altern False ws
t:ws -> (if m then op t else t) : altern m ws
[] -> []
appLexer :: (String -> [String]) -> String -> String
appLexer f = unwords . filter (not . null) . f
appUnlexer :: ([String] -> String) -> String -> String
appUnlexer f = unlines . map (f . words) . lines
wrapHTML :: String -> String
wrapHTML = unlines . tag . intersperse "
" . lines where
tag ss = "":"
":"":"":"" : ss ++ ["",""]
lexText :: String -> [String]
lexText = uncap . lext where
lext s = case s of
c:cs | isMajorPunct c -> [c] : uncap (lext cs)
c:cs | isMinorPunct c -> [c] : lext cs
c:cs | isSpace c -> lext cs
_:_ -> let (w,cs) = break (\x -> isSpace x || isPunct x) s in w : lext cs
_ -> [s]
uncap s = case s of
(c:cs):ws -> (toLower c : cs):ws
_ -> s
-- | Haskell lexer, usable for much code
lexCode :: String -> [String]
lexCode ss = case lex ss of
[(w@(_:_),ws)] -> w : lexCode ws
_ -> []
-- | LaTeX style lexer, with "math" environment using Code between $...$
lexMixed :: String -> [String]
lexMixed = concat . alternate False where
alternate env s = case s of
_:_ -> case break (=='$') s of
(t,[]) -> lex env t : []
(t,c:m) -> lex env t : [[c]] : alternate (not env) m
_ -> []
lex env = if env then lexCode else lexText
bindTok :: [String] -> String
bindTok ws = case ws of
w:"&+":ws2 -> w ++ bindTok ws2
w:[] -> w
w:ws2 -> w ++ " " ++ bindTok ws2
[] -> ""
unlexText :: [String] -> String
unlexText = unlext where
unlext s = case s of
w:[] -> w
w:[c]:[] | isPunct c -> w ++ [c]
w:[c]:cs | isMajorPunct c -> w ++ [c] ++ " " ++ capitInit (unlext cs)
w:[c]:cs | isMinorPunct c -> w ++ [c] ++ " " ++ unlext cs
w:ws -> w ++ " " ++ unlext ws
_ -> []
-- capitalize first letter
capitInit s = case s of
c:cs -> toUpper c : cs
_ -> s
-- unquote each string of form "foo"
unquote = map unq where
unq s = case s of
'"':cs@(_:_) | last cs == '"' -> init cs
_ -> s
unlexCode :: [String] -> String
unlexCode s = case s of
w:[] -> w
[c]:cs | isParen c -> [c] ++ unlexCode cs
w:cs@([c]:_) | isClosing c -> w ++ unlexCode cs
w:ws -> w ++ " " ++ unlexCode ws
_ -> []
unlexMixed :: [String] -> String
unlexMixed = concat . alternate False where
alternate env s = case s of
_:_ -> case break (=="$") s of
(t,[]) -> unlex env t : []
(t,c:m) -> unlex env t : sep env c : alternate (not env) m
_ -> []
unlex env = if env then unlexCode else unlexText
sep env c = if env then c ++ " " else " " ++ c
isPunct = flip elem ".?!,:;"
isMajorPunct = flip elem ".?!"
isMinorPunct = flip elem ",:;"
isParen = flip elem "()[]{}"
isClosing = flip elem ")]}"