-----------------------------------------------------------------------------
-- |
-- Module : Text.ParserCombinators.Parsec.Expr
-- Copyright : (c) Daan Leijen 1999-2001
-- License : BSD-style (see the file libraries/parsec/LICENSE)
--
-- Maintainer : [email protected]
-- Stability : provisional
-- Portability : portable
--
-- A helper module to parse \"expressions\".
-- Builds a parser given a table of operators and associativities.
--
-----------------------------------------------------------------------------
module Text.ParserCombinators.Parsec.Expr
( Assoc(..), Operator(..), OperatorTable
, buildExpressionParser
) where
import Text.ParserCombinators.Parsec.Prim
import Text.ParserCombinators.Parsec.Combinator
-----------------------------------------------------------
-- Assoc and OperatorTable
-----------------------------------------------------------
data Assoc = AssocNone
| AssocLeft
| AssocRight
data Operator t st a = Infix (GenParser t st (a -> a -> a)) Assoc
| Prefix (GenParser t st (a -> a))
| Postfix (GenParser t st (a -> a))
type OperatorTable t st a = [[Operator t st a]]
-----------------------------------------------------------
-- Convert an OperatorTable and basic term parser into
-- a full fledged expression parser
-----------------------------------------------------------
buildExpressionParser :: OperatorTable tok st a -> GenParser tok st a -> GenParser tok st a
buildExpressionParser operators simpleExpr
= foldl (makeParser) simpleExpr operators
where
makeParser term ops
= let (rassoc,lassoc,nassoc
,prefix,postfix) = foldr splitOp ([],[],[],[],[]) ops
rassocOp = choice rassoc
lassocOp = choice lassoc
nassocOp = choice nassoc
prefixOp = choice prefix <?> ""
postfixOp = choice postfix <?> ""
ambigious assoc op= try $
do{ op; fail ("ambiguous use of a " ++ assoc
++ " associative operator")
}
ambigiousRight = ambigious "right" rassocOp
ambigiousLeft = ambigious "left" lassocOp
ambigiousNon = ambigious "non" nassocOp
termP = do{ pre <- prefixP
; x <- term
; post <- postfixP
; return (post (pre x))
}
postfixP = postfixOp <|> return id
prefixP = prefixOp <|> return id
rassocP x = do{ f <- rassocOp
; y <- do{ z <- termP; rassocP1 z }
; return (f x y)
}
<|> ambigiousLeft
<|> ambigiousNon
-- <|> return x
rassocP1 x = rassocP x <|> return x
lassocP x = do{ f <- lassocOp
; y <- termP
; lassocP1 (f x y)
}
<|> ambigiousRight
<|> ambigiousNon
-- <|> return x
lassocP1 x = lassocP x <|> return x
nassocP x = do{ f <- nassocOp
; y <- termP
; ambigiousRight
<|> ambigiousLeft
<|> ambigiousNon
<|> return (f x y)
}
-- <|> return x
in do{ x <- termP
; rassocP x <|> lassocP x <|> nassocP x <|> return x
<?> "operator"
}
splitOp (Infix op assoc) (rassoc,lassoc,nassoc,prefix,postfix)
= case assoc of
AssocNone -> (rassoc,lassoc,op:nassoc,prefix,postfix)
AssocLeft -> (rassoc,op:lassoc,nassoc,prefix,postfix)
AssocRight -> (op:rassoc,lassoc,nassoc,prefix,postfix)
splitOp (Prefix op) (rassoc,lassoc,nassoc,prefix,postfix)
= (rassoc,lassoc,nassoc,op:prefix,postfix)
splitOp (Postfix op) (rassoc,lassoc,nassoc,prefix,postfix)
= (rassoc,lassoc,nassoc,prefix,op:postfix)
|