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restored the .ebnf grammar format

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aarne
2010-09-24 12:39:49 +00:00
parent 617ce3cce6
commit 709b0518fa
3 changed files with 370 additions and 12 deletions
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27
src/compiler/GF/Command/Importing.hs
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@@ -6,6 +6,7 @@ import PGF.Data
import GF.Compile
import GF.Grammar (identC, SourceGrammar) -- for cc command
import GF.Grammar.CF
import GF.Grammar.EBNF
import GF.Infra.UseIO
import GF.Infra.Option
import GF.Data.ErrM
@@ -19,17 +20,8 @@ importGrammar :: PGF -> Options -> [FilePath] -> IO PGF
importGrammar pgf0 _ [] = return pgf0
importGrammar pgf0 opts files =
case takeExtensions (last files) of
".cf" -> do
s <- fmap unlines $ mapM readFile files
let cnc = justModuleName (last files)
gf <- case getCF cnc s of
Ok g -> return g
Bad s -> error s ----
Ok gr <- appIOE $ compileSourceGrammar opts gf
epgf <- appIOE $ link opts (identC (BS.pack (cnc ++ "Abs"))) gr
case epgf of
Ok pgf -> return pgf
Bad s -> error s ----
".cf" -> importCF opts files getCF
".ebnf" -> importCF opts files getEBNF
s | elem s [".gf",".gfo"] -> do
res <- appIOE $ compileToPGF opts files
case res of
@@ -49,3 +41,16 @@ importSource src0 opts files = do
Bad msg -> do
putStrLn msg
return src0
-- for different cf formats
importCF opts files get = do
s <- fmap unlines $ mapM readFile files
let cnc = justModuleName (last files)
gf <- case get cnc s of
Ok g -> return g
Bad s -> error s ----
Ok gr <- appIOE $ compileSourceGrammar opts gf
epgf <- appIOE $ link opts (identC (BS.pack (cnc ++ "Abs"))) gr
case epgf of
Ok pgf -> return pgf
Bad s -> error s ----

2
src/compiler/GF/Grammar/CF.hs
View File

@@ -12,7 +12,7 @@
-- parsing CF grammars and converting them to GF
-----------------------------------------------------------------------------
module GF.Grammar.CF (getCF) where
module GF.Grammar.CF (getCF,CFItem,CFCat,CFFun,cf2gf,CFRule) where
import GF.Grammar.Grammar
import GF.Grammar.Macros

353
src/compiler/GF/Grammar/EBNF.hs Normal file
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@@ -0,0 +1,353 @@
----------------------------------------------------------------------
-- |
-- Module : EBNF
-- Maintainer : AR
-- Stability : (stable)
-- Portability : (portable)
--
-- > CVS $Date: 2005/04/21 16:21:13 $
-- > CVS $Author: bringert $
-- > CVS $Revision: 1.5 $
--
-- (Description of the module)
-----------------------------------------------------------------------------
module GF.Grammar.EBNF (getEBNF) where
import GF.Data.Operations
--import GF.Infra.Comments
import GF.Grammar.CF
--import GF.CF.CFIdent
import GF.Grammar.Grammar
--import GF.Grammar.PrGrammar
--import qualified GF.Source.AbsGF as A
import Data.Char
import Data.List
-- AR 18/4/2000 - 31/3/2004
getEBNF :: String -> String -> Err SourceGrammar
getEBNF name = fmap (cf2gf name . ebnf2cf) . pEBNF
type EBNF = [ERule]
type ERule = (ECat, ERHS)
type ECat = (String,[Int])
type ETok = String
ebnfID = "EBNF" ---- make this parametric!
data ERHS =
ETerm ETok
| ENonTerm ECat
| ESeq ERHS ERHS
| EAlt ERHS ERHS
| EStar ERHS
| EPlus ERHS
| EOpt ERHS
| EEmpty
type CFRHS = [CFItem]
type CFJustRule = (CFCat, CFRHS)
ebnf2cf :: EBNF -> [CFRule]
ebnf2cf ebnf =
[L (0,0) (mkCFF i rule,rule) | (i,rule) <- zip [0..] (normEBNF ebnf)] where
mkCFF i (c, _) = ("Mk" ++ c ++ "_" ++ show i)
normEBNF :: EBNF -> [CFJustRule]
normEBNF erules = let
erules1 = [normERule ([i],r) | (i,r) <- zip [0..] erules]
erules2 = erules1 ---refreshECats erules1 --- this seems to be just bad !
erules3 = concat (map pickERules erules2)
erules4 = nubERules erules3
in [(mkCFCatE cat, map eitem2cfitem its) | (cat,itss) <- erules3, its <- itss]
refreshECats :: [NormERule] -> [NormERule]
refreshECats rules = [recas [i] rule | (i,rule) <- zip [0..] rules] where
recas ii (cat,its) = (updECat ii cat, [recss ii 0 s | s <- its])
recss ii n [] = []
recss ii n (s:ss) = recit (ii ++ [n]) s : recss ii (n+1) ss
recit ii it = case it of
EINonTerm cat -> EINonTerm (updECat ii cat)
EIStar (cat,t) -> EIStar (updECat ii cat, [recss ii 0 s | s <- t])
EIPlus (cat,t) -> EIPlus (updECat ii cat, [recss ii 0 s | s <- t])
EIOpt (cat,t) -> EIOpt (updECat ii cat, [recss ii 0 s | s <- t])
_ -> it
pickERules :: NormERule -> [NormERule]
pickERules rule@(cat,alts) = rule : concat (map pics (concat alts)) where
pics it = case it of
EIStar ru@(cat,t) -> mkEStarRules cat ++ pickERules ru
EIPlus ru@(cat,t) -> mkEPlusRules cat ++ pickERules ru
EIOpt ru@(cat,t) -> mkEOptRules cat ++ pickERules ru
_ -> []
mkEStarRules cat = [(cat', [[],[EINonTerm cat, EINonTerm cat']])]
where cat' = mkNewECat cat "Star"
mkEPlusRules cat = [(cat', [[EINonTerm cat],[EINonTerm cat, EINonTerm cat']])]
where cat' = mkNewECat cat "Plus"
mkEOptRules cat = [(cat', [[],[EINonTerm cat]])]
where cat' = mkNewECat cat "Opt"
nubERules :: [NormERule] -> [NormERule]
nubERules rules = nub optim where
optim = map (substERules (map mkSubst replaces)) irreducibles
(replaces,irreducibles) = partition reducible rules
reducible (cat,[items]) = isNewCat cat && all isOldIt items
reducible _ = False
isNewCat (_,ints) = ints == []
isOldIt (EITerm _) = True
isOldIt (EINonTerm cat) = not (isNewCat cat)
isOldIt _ = False
mkSubst (cat,its) = (cat, head its) -- def of reducible: its must be singleton
--- the optimization assumes each cat has at most one EBNF rule.
substERules :: [(ECat,[EItem])] -> NormERule -> NormERule
substERules g (cat,itss) = (cat, map sub itss) where
sub [] = []
sub (i@(EINonTerm cat') : ii) = case lookup cat g of
Just its -> its ++ sub ii
_ -> i : sub ii
sub (EIStar r : ii) = EIStar (substERules g r) : ii
sub (EIPlus r : ii) = EIPlus (substERules g r) : ii
sub (EIOpt r : ii) = EIOpt (substERules g r) : ii
eitem2cfitem :: EItem -> CFItem
eitem2cfitem it = case it of
EITerm a -> Right a
EINonTerm cat -> Left (mkCFCatE cat)
EIStar (cat,_) -> Left (mkCFCatE (mkNewECat cat "Star"))
EIPlus (cat,_) -> Left (mkCFCatE (mkNewECat cat "Plus"))
EIOpt (cat,_) -> Left (mkCFCatE (mkNewECat cat "Opt"))
type NormERule = (ECat,[[EItem]]) -- disjunction of sequences of items
data EItem =
EITerm String
| EINonTerm ECat
| EIStar NormERule
| EIPlus NormERule
| EIOpt NormERule
deriving Eq
normERule :: ([Int],ERule) -> NormERule
normERule (ii,(cat,rhs)) =
(cat,[map (mkEItem (ii ++ [i])) r' | (i,r') <- zip [0..] (disjNorm rhs)]) where
disjNorm r = case r of
ESeq r1 r2 -> [x ++ y | x <- disjNorm r1, y <- disjNorm r2]
EAlt r1 r2 -> disjNorm r1 ++ disjNorm r2
EEmpty -> [[]]
_ -> [[r]]
mkEItem :: [Int] -> ERHS -> EItem
mkEItem ii rhs = case rhs of
ETerm a -> EITerm a
ENonTerm cat -> EINonTerm cat
EStar r -> EIStar (normERule (ii,(mkECat ii, r)))
EPlus r -> EIPlus (normERule (ii,(mkECat ii, r)))
EOpt r -> EIOpt (normERule (ii,(mkECat ii, r)))
_ -> EINonTerm ("?????",[])
-- _ -> error "should not happen in ebnf" ---
mkECat ints = ("C", ints)
prECat (c,[]) = c
prECat (c,ints) = c ++ "_" ++ prTList "_" (map show ints)
mkCFCatE :: ECat -> CFCat
mkCFCatE = prECat
updECat _ (c,[]) = (c,[])
updECat ii (c,_) = (c,ii)
mkNewECat (c,ii) str = (c ++ str,ii)
------ parser for EBNF grammars
pEBNF :: String -> Err EBNF
pEBNF = parseResultErr (longestOfMany (pJ pERule))
pERule :: Parser Char ERule
pERule = pECat ... pJ (literals ":=" ||| literals "::=") +.. pERHS 0 ..+ jL ";"
pERHS :: Int -> Parser Char ERHS
pERHS 0 = pTList "|" (pERHS 1) *** foldr1 EAlt
pERHS 1 = longestOfMany (pJ (pERHS 2)) *** foldr ESeq EEmpty
pERHS 2 = pERHS 3 ... pJ pUnaryEOp *** (\ (a,f) -> f a)
pERHS 3 = pQuotedString *** ETerm
||| pECat *** ENonTerm ||| pParenth (pERHS 0)
pUnaryEOp :: Parser Char (ERHS -> ERHS)
pUnaryEOp =
lits "*" <<< EStar ||| lits "+" <<< EPlus ||| lits "?" <<< EOpt ||| succeed id
pECat = pIdent *** (\c -> (c,[]))
----------------------------------------------------------------------
-- Module : Parsers
-- some parser combinators a la Wadler and Hutton.
-- (only used in module "EBNF")
-----------------------------------------------------------------------------
infixr 2 |||, +||
infixr 3 ***
infixr 5 .>.
infixr 5 ...
infixr 5 ....
infixr 5 +..
infixr 5 ..+
infixr 6 |>
infixr 3 <<<
type Parser a b = [a] -> [(b,[a])]
parseResults :: Parser a b -> [a] -> [b]
parseResults p s = [x | (x,r) <- p s, null r]
parseResultErr :: Show a => Parser a b -> [a] -> Err b
parseResultErr p s = case parseResults p s of
[x] -> return x
[] -> case
maximumBy (\x y -> compare (length y) (length x)) (s:[r | (_,r) <- p s]) of
r -> Bad $ "\nno parse; reached" ++++ take 300 (show r)
_ -> Bad "ambiguous"
(...) :: Parser a b -> Parser a c -> Parser a (b,c)
(p ... q) s = [((x,y),r) | (x,t) <- p s, (y,r) <- q t]
(.>.) :: Parser a b -> (b -> Parser a c) -> Parser a c
(p .>. f) s = [(c,r) | (x,t) <- p s, (c,r) <- f x t]
(|||) :: Parser a b -> Parser a b -> Parser a b
(p ||| q) s = p s ++ q s
(+||) :: Parser a b -> Parser a b -> Parser a b
p1 +|| p2 = take 1 . (p1 ||| p2)
literal :: (Eq a) => a -> Parser a a
literal x (c:cs) = [(x,cs) | x == c]
literal _ _ = []
(***) :: Parser a b -> (b -> c) -> Parser a c
(p *** f) s = [(f x,r) | (x,r) <- p s]
succeed :: b -> Parser a b
succeed v s = [(v,s)]
fails :: Parser a b
fails s = []
(+..) :: Parser a b -> Parser a c -> Parser a c
p1 +.. p2 = p1 ... p2 *** snd
(..+) :: Parser a b -> Parser a c -> Parser a b
p1 ..+ p2 = p1 ... p2 *** fst
(<<<) :: Parser a b -> c -> Parser a c -- return
p <<< v = p *** (\x -> v)
(|>) :: Parser a b -> (b -> Bool) -> Parser a b
p |> b = p .>. (\x -> if b x then succeed x else fails)
many :: Parser a b -> Parser a [b]
many p = (p ... many p *** uncurry (:)) +|| succeed []
some :: Parser a b -> Parser a [b]
some p = (p ... many p) *** uncurry (:)
longestOfMany :: Parser a b -> Parser a [b]
longestOfMany p = p .>. (\x -> longestOfMany p *** (x:)) +|| succeed []
closure :: (b -> Parser a b) -> (b -> Parser a b)
closure p v = p v .>. closure p ||| succeed v
pJunk :: Parser Char String
pJunk = longestOfMany (satisfy (\x -> elem x "\n\t "))
pJ :: Parser Char a -> Parser Char a
pJ p = pJunk +.. p ..+ pJunk
pTList :: String -> Parser Char a -> Parser Char [a]
pTList t p = p .... many (jL t +.. p) *** (\ (x,y) -> x:y) -- mod. AR 5/1/1999
pTJList :: String -> String -> Parser Char a -> Parser Char [a]
pTJList t1 t2 p = p .... many (literals t1 +.. jL t2 +.. p) *** (uncurry (:))
pElem :: [String] -> Parser Char String
pElem l = foldr (+||) fails (map literals l)
(....) :: Parser Char b -> Parser Char c -> Parser Char (b,c)
p1 .... p2 = p1 ... pJunk +.. p2
item :: Parser a a
item (c:cs) = [(c,cs)]
item [] = []
satisfy :: (a -> Bool) -> Parser a a
satisfy b = item |> b
literals :: (Eq a,Show a) => [a] -> Parser a [a]
literals l = case l of
[] -> succeed []
a:l -> literal a ... literals l *** (\ (x,y) -> x:y)
lits :: (Eq a,Show a) => [a] -> Parser a [a]
lits ts = literals ts
jL :: String -> Parser Char String
jL = pJ . lits
pParenth :: Parser Char a -> Parser Char a
pParenth p = literal '(' +.. pJunk +.. p ..+ pJunk ..+ literal ')'
-- | p,...,p
pCommaList :: Parser Char a -> Parser Char [a]
pCommaList p = pTList "," (pJ p)
-- | the same or nothing
pOptCommaList :: Parser Char a -> Parser Char [a]
pOptCommaList p = pCommaList p ||| succeed []
-- | (p,...,p), poss. empty
pArgList :: Parser Char a -> Parser Char [a]
pArgList p = pParenth (pCommaList p) ||| succeed []
-- | min. 2 args
pArgList2 :: Parser Char a -> Parser Char [a]
pArgList2 p = pParenth (p ... jL "," +.. pCommaList p) *** uncurry (:)
longestOfSome :: Parser a b -> Parser a [b]
longestOfSome p = (p ... longestOfMany p) *** (\ (x,y) -> x:y)
pIdent :: Parser Char String
pIdent = pLetter ... longestOfMany pAlphaPlusChar *** uncurry (:)
where alphaPlusChar c = isAlphaNum c || c=='_' || c=='\''
pLetter, pDigit :: Parser Char Char
pLetter = satisfy (`elem` (['A'..'Z'] ++ ['a'..'z'] ++
['\192' .. '\255'])) -- no such in Char
pDigit = satisfy isDigit
pLetters :: Parser Char String
pLetters = longestOfSome pLetter
pAlphanum, pAlphaPlusChar :: Parser Char Char
pAlphanum = pDigit ||| pLetter
pAlphaPlusChar = pAlphanum ||| satisfy (`elem` "_'")
pQuotedString :: Parser Char String
pQuotedString = literal '"' +.. pEndQuoted where
pEndQuoted =
literal '"' *** (const [])
+|| (literal '\\' +.. item .>. \ c -> pEndQuoted *** (c:))
+|| item .>. \ c -> pEndQuoted *** (c:)
pIntc :: Parser Char Int
pIntc = some (satisfy numb) *** read
where numb x = elem x ['0'..'9']