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implementation module Sil.Util.Parser
from StdFunc import iter, o
import StdList
import StdOverloaded
import Control.Applicative
import Control.Monad
import Data.Error
from Data.Func import $
import Data.Functor
import Data.List
import Data.Maybe
import Sil.Error
instance getPos ParsePosition where getPos pp = pp
:: *ParseState a =
{ ps_line :: Int
, ps_input :: [ParseInput a]
, ps_read :: [ParseInput a]
, ps_pos :: Int
, ps_commits :: [Int]
}
makeParseState :: [ParseInput a] -> ParseState a
makeParseState i =
{ ps_line = 1
, ps_input = i
, ps_read = []
, ps_pos = 0
, ps_commits = []
}
nextToken :: (ParseState a) -> (Maybe a, ParseState a)
nextToken ps=:{ps_input=[]} = (Nothing, ps)
nextToken ps=:{ps_input=[i:is]} = case i of
PI_Token t -> (Just t, {advance & ps_pos=ps.ps_pos + 1})
PI_NewLine -> nextToken {advance & ps_line=ps.ps_line + 1}
where
advance = {ps & ps_read=[i:ps.ps_read], ps_input=is}
tokenBack :: (ParseState a) -> ParseState a
tokenBack ps=:{ps_read=[]} = ps
tokenBack ps=:{ps_read=[r:rs]} = case r of
PI_Token t -> {rewind & ps_pos=ps.ps_pos - 1}
PI_NewLine -> tokenBack {rewind & ps_line=ps.ps_line-1}
where
rewind = {ps & ps_read=rs, ps_input=[r:ps.ps_input]}
commit :: (ParseState a) -> ParseState a
commit ps = {ps & ps_commits=[ps.ps_pos:ps.ps_commits]}
dropCommit :: (ParseState a) -> ParseState a
dropCommit ps = {ps & ps_commits=tl ps.ps_commits}
restoreCommit :: (ParseState a) -> ParseState a
restoreCommit ps=:{ps_commits=[c:cs]} = iter (ps.ps_pos - c) tokenBack {ps & ps_commits=cs}
instance Functor (Parser a)
where
fmap f m = liftM f m
instance Applicative (Parser a)
where
pure a = Parser \st -> (Ok a, st)
(<*>) sf p = ap sf p
instance Monad (Parser a)
where
bind p f = Parser \st -> case runParser p (commit st) of
(Error e, st) -> (Error e, restoreCommit st)
(Ok r, st) -> case runParser (f r) st of
(Ok r, st) -> (Ok r, dropCommit st)
(Error e, st) -> (Error e, restoreCommit st)
instance Alternative (Parser a)
where
empty = Parser \st -> (Error $ UnknownError "empty in Parser", st)
(<|>) p1 p2 = Parser \st -> case runParser p1 (commit st) of
(Ok r, st) -> (Ok r, dropCommit st)
(Error e1, st) -> case runParser p2 (commit $ restoreCommit st) of
(Ok r, st) -> (Ok r, dropCommit st)
(Error e2, st) -> (Error $ max e1 e2, restoreCommit st)
instance name String where name s = s
doPS :: ((ParseState a) -> ParseState a) -> Parser a ()
doPS f = Parser \st -> (Ok (), f st)
runParser :: (Parser a b) *(ParseState a) -> *(MaybeError Error b, *ParseState a)
runParser (Parser f) i = f i
getPosition :: Parser a ParsePosition
getPosition = Parser \st=:{ps_line,ps_pos} -> (Ok {pp_line=ps_line,pp_token=ps_pos}, st)
(<?>) :: (Parser a b) Error -> Parser a b
(<?>) p e = Parser \i -> case runParser p i of
(Error _, st) -> (Error e, st)
o -> o
(<#>) :: (Parser a b) String -> Parser a b | toString a
(<#>) p what = p <|> (getPosition >>= \pos -> peek >>= \e -> Parser \st -> (Error $ P_Expected (errpos pos) what e, st))
fail :: Parser a b
fail = empty
top :: Parser a a
top = Parser \st -> case nextToken st of
(Nothing, st) -> (Error $ UnknownError "top in Parser failed", st)
(Just x, st) -> (Ok x, st)
peek :: Parser a a
peek = Parser \st -> case nextToken st of
(Nothing, st) -> (Error $ UnknownError "peek in Parser failed", st)
(Just x, st) -> (Ok x, tokenBack st)
satisfy :: (a -> Bool) -> Parser a a
satisfy f = top >>= \r -> if (f r) (pure r) fail
check :: (a -> Bool) -> Parser a a
check f = peek >>= \r -> if (f r) (pure r) fail
(until) infix 2 :: (Parser a b) (Parser a c) -> Parser a [b]
(until) p guard = try $ until` p guard []
where
until` :: (Parser a b) (Parser a c) [b] -> Parser a [b]
until` p guard acc = Parser \st -> case runParser guard (commit st) of
(Ok _, st) -> (Ok acc, dropCommit st)
(Error _, st) -> case runParser p (commit $ restoreCommit st) of
(Ok r, st) -> runParser (until` p guard [r:acc]) (dropCommit st)
(Error e, st) -> (Error e, restoreCommit st)
try :: (Parser a b) -> Parser a b
try p = Parser \st -> case runParser p st of
(Error e, st) -> (Error e, st)
(Ok r, st) -> (Ok r, st)
item :: a -> Parser a a | ==, name, toString a
item a = satisfy ((==) a) <#> name a
anyItem :: ([a] -> Parser a a) | ==, name, toString a
anyItem = foldr (<|>) empty o map item
list :: [a] -> Parser a [a] | ==, name, toString a
list as = mapM item as
seplist :: a (Parser a b) -> Parser a [b] | ==, name, toString a
seplist sep p = liftM2 (\e es -> [e:es]) p (many (p <* item sep))
<|> pure empty
seplistUntil :: a a (Parser a b) -> Parser a [b] | ==, name, toString a
seplistUntil end sep p =
liftM2 (\e es -> [e:es]) p ((item sep *> p) until` (item end))
<|> liftM pure (p <* item end)
<|> (pure empty <* item end)
where
(until`) infix 2 :: (Parser a b) (Parser a c) -> Parser a [b]
(until`) p1 guard = (p1 until guard) >>= \xs -> case xs of
[] -> fail
xs -> pure xs
eof :: Parser a () | toString a
eof = Parser \st=:{ps_line,ps_pos} -> case nextToken st of
(Nothing, st) -> (Ok (), st)
(Just t, st) -> (Error $ P_Expected (errpos {pp_line=ps_line,pp_token=ps_pos}) "eof" t, st)
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