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167 lines
6.3 KiB
Haskell
167 lines
6.3 KiB
Haskell
-----------------------------------------------------------------------------
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-- |
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-- Module : Text.Parsec.Expr
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-- Copyright : (c) Daan Leijen 1999-2001, (c) Paolo Martini 2007
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-- License : BSD-style (see the LICENSE file)
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--
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-- Maintainer : derek.a.elkins@gmail.com
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-- Stability : provisional
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-- Portability : non-portable
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--
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-- A helper module to parse \"expressions\".
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-- Builds a parser given a table of operators and associativities.
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--
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-----------------------------------------------------------------------------
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module Text.Parsec.Expr
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( Assoc(..), Operator(..), OperatorTable
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, buildExpressionParser
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) where
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import Text.Parsec.Prim
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import Text.Parsec.Combinator
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-----------------------------------------------------------
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-- Assoc and OperatorTable
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-----------------------------------------------------------
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-- | This data type specifies the associativity of operators: left, right
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-- or none.
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data Assoc = AssocNone
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| AssocLeft
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| AssocRight
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-- | This data type specifies operators that work on values of type @a@.
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-- An operator is either binary infix or unary prefix or postfix. A
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-- binary operator has also an associated associativity.
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data Operator s u m a = Infix (ParsecT s u m (a -> a -> a)) Assoc
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| Prefix (ParsecT s u m (a -> a))
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| Postfix (ParsecT s u m (a -> a))
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-- | An @OperatorTable s u m a@ is a list of @Operator s u m a@
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-- lists. The list is ordered in descending
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-- precedence. All operators in one list have the same precedence (but
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-- may have a different associativity).
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type OperatorTable s u m a = [[Operator s u m a]]
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-----------------------------------------------------------
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-- Convert an OperatorTable and basic term parser into
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-- a full fledged expression parser
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-----------------------------------------------------------
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-- | @buildExpressionParser table term@ builds an expression parser for
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-- terms @term@ with operators from @table@, taking the associativity
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-- and precedence specified in @table@ into account. Prefix and postfix
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-- operators of the same precedence can only occur once (i.e. @--2@ is
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-- not allowed if @-@ is prefix negate). Prefix and postfix operators
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-- of the same precedence associate to the left (i.e. if @++@ is
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-- postfix increment, than @-2++@ equals @-1@, not @-3@).
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--
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-- The @buildExpressionParser@ takes care of all the complexity
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-- involved in building expression parser. Here is an example of an
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-- expression parser that handles prefix signs, postfix increment and
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-- basic arithmetic.
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--
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-- > expr = buildExpressionParser table term
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-- > <?> "expression"
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-- >
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-- > term = parens expr
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-- > <|> natural
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-- > <?> "simple expression"
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-- >
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-- > table = [ [prefix "-" negate, prefix "+" id ]
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-- > , [postfix "++" (+1)]
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-- > , [binary "*" (*) AssocLeft, binary "/" (div) AssocLeft ]
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-- > , [binary "+" (+) AssocLeft, binary "-" (-) AssocLeft ]
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-- > ]
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-- >
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-- > binary name fun assoc = Infix (do{ reservedOp name; return fun }) assoc
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-- > prefix name fun = Prefix (do{ reservedOp name; return fun })
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-- > postfix name fun = Postfix (do{ reservedOp name; return fun })
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buildExpressionParser :: (Stream s m t)
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=> OperatorTable s u m a
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-> ParsecT s u m a
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-> ParsecT s u m a
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buildExpressionParser operators simpleExpr
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= foldl (makeParser) simpleExpr operators
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where
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makeParser term ops
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= let (rassoc,lassoc,nassoc
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,prefix,postfix) = foldr splitOp ([],[],[],[],[]) ops
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rassocOp = choice rassoc
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lassocOp = choice lassoc
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nassocOp = choice nassoc
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prefixOp = choice prefix <?> ""
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postfixOp = choice postfix <?> ""
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ambigious assoc op= try $
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do{ op; fail ("ambiguous use of a " ++ assoc
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++ " associative operator")
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}
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ambigiousRight = ambigious "right" rassocOp
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ambigiousLeft = ambigious "left" lassocOp
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ambigiousNon = ambigious "non" nassocOp
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termP = do{ pre <- prefixP
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; x <- term
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; post <- postfixP
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; return (post (pre x))
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}
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postfixP = postfixOp <|> return id
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prefixP = prefixOp <|> return id
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rassocP x = do{ f <- rassocOp
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; y <- do{ z <- termP; rassocP1 z }
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; return (f x y)
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}
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<|> ambigiousLeft
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<|> ambigiousNon
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-- <|> return x
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rassocP1 x = rassocP x <|> return x
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lassocP x = do{ f <- lassocOp
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; y <- termP
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; lassocP1 (f x y)
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}
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<|> ambigiousRight
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<|> ambigiousNon
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-- <|> return x
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lassocP1 x = lassocP x <|> return x
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nassocP x = do{ f <- nassocOp
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; y <- termP
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; ambigiousRight
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<|> ambigiousLeft
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<|> ambigiousNon
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<|> return (f x y)
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}
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-- <|> return x
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in do{ x <- termP
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; rassocP x <|> lassocP x <|> nassocP x <|> return x
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<?> "operator"
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}
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splitOp (Infix op assoc) (rassoc,lassoc,nassoc,prefix,postfix)
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= case assoc of
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AssocNone -> (rassoc,lassoc,op:nassoc,prefix,postfix)
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AssocLeft -> (rassoc,op:lassoc,nassoc,prefix,postfix)
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AssocRight -> (op:rassoc,lassoc,nassoc,prefix,postfix)
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splitOp (Prefix op) (rassoc,lassoc,nassoc,prefix,postfix)
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= (rassoc,lassoc,nassoc,op:prefix,postfix)
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splitOp (Postfix op) (rassoc,lassoc,nassoc,prefix,postfix)
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= (rassoc,lassoc,nassoc,prefix,op:postfix)
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