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182 lines
6.4 KiB
Haskell
182 lines
6.4 KiB
Haskell
-----------------------------------------------------------------------------
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-- |
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-- Module : Text.Parsec.Perm
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-- Copyright : (c) Daan Leijen 1999-2001, (c) Paolo Martini 2007
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-- License : BSD-style (see the file libraries/parsec/LICENSE)
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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 (uses existentially quantified data constructors)
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--
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-- This module implements permutation parsers. The algorithm used
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-- is fairly complex since we push the type system to its limits :-)
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-- The algorithm is described in:
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--
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-- /Parsing Permutation Phrases,/
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-- by Arthur Baars, Andres Loh and Doaitse Swierstra.
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-- Published as a functional pearl at the Haskell Workshop 2001.
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--
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-----------------------------------------------------------------------------
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{-# LANGUAGE ExistentialQuantification #-}
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module Text.Parsec.Perm
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( PermParser
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, StreamPermParser -- abstract
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, permute
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, (<||>), (<$$>)
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, (<|?>), (<$?>)
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) where
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import Text.Parsec
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import Control.Monad.Identity
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infixl 1 <||>, <|?>
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infixl 2 <$$>, <$?>
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{---------------------------------------------------------------
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test -- parse a permutation of
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* an optional string of 'a's
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* a required 'b'
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* an optional 'c'
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---------------------------------------------------------------}
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{-
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test input
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= parse (do{ x <- ptest; eof; return x }) "" input
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ptest :: Parser (String,Char,Char)
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ptest
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= permute $
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(,,) <$?> ("",many1 (char 'a'))
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<||> char 'b'
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<|?> ('_',char 'c')
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-}
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{---------------------------------------------------------------
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Building a permutation parser
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---------------------------------------------------------------}
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-- | The expression @perm \<||> p@ adds parser @p@ to the permutation
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-- parser @perm@. The parser @p@ is not allowed to accept empty input -
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-- use the optional combinator ('<|?>') instead. Returns a
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-- new permutation parser that includes @p@.
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(<||>) :: (Stream s Identity tok) => StreamPermParser s st (a -> b) -> Parsec s st a -> StreamPermParser s st b
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(<||>) perm p = add perm p
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-- | The expression @f \<$$> p@ creates a fresh permutation parser
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-- consisting of parser @p@. The the final result of the permutation
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-- parser is the function @f@ applied to the return value of @p@. The
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-- parser @p@ is not allowed to accept empty input - use the optional
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-- combinator ('<$?>') instead.
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--
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-- If the function @f@ takes more than one parameter, the type variable
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-- @b@ is instantiated to a functional type which combines nicely with
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-- the adds parser @p@ to the ('<||>') combinator. This
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-- results in stylized code where a permutation parser starts with a
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-- combining function @f@ followed by the parsers. The function @f@
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-- gets its parameters in the order in which the parsers are specified,
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-- but actual input can be in any order.
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(<$$>) :: (Stream s Identity tok) => (a -> b) -> Parsec s st a -> StreamPermParser s st b
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(<$$>) f p = newperm f <||> p
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-- | The expression @perm \<||> (x,p)@ adds parser @p@ to the
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-- permutation parser @perm@. The parser @p@ is optional - if it can
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-- not be applied, the default value @x@ will be used instead. Returns
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-- a new permutation parser that includes the optional parser @p@.
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(<|?>) :: (Stream s Identity tok) => StreamPermParser s st (a -> b) -> (a, Parsec s st a) -> StreamPermParser s st b
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(<|?>) perm (x,p) = addopt perm x p
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-- | The expression @f \<$?> (x,p)@ creates a fresh permutation parser
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-- consisting of parser @p@. The the final result of the permutation
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-- parser is the function @f@ applied to the return value of @p@. The
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-- parser @p@ is optional - if it can not be applied, the default value
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-- @x@ will be used instead.
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(<$?>) :: (Stream s Identity tok) => (a -> b) -> (a, Parsec s st a) -> StreamPermParser s st b
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(<$?>) f (x,p) = newperm f <|?> (x,p)
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{---------------------------------------------------------------
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The permutation tree
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---------------------------------------------------------------}
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-- | Provided for backwards compatibility. The tok type is ignored.
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type PermParser tok st a = StreamPermParser String st a
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-- | The type @StreamPermParser s st a@ denotes a permutation parser that,
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-- when converted by the 'permute' function, parses
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-- @s@ streams with user state @st@ and returns a value of
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-- type @a@ on success.
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--
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-- Normally, a permutation parser is first build with special operators
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-- like ('<||>') and than transformed into a normal parser
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-- using 'permute'.
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data StreamPermParser s st a = Perm (Maybe a) [StreamBranch s st a]
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-- type Branch st a = StreamBranch String st a
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data StreamBranch s st a = forall b. Branch (StreamPermParser s st (b -> a)) (Parsec s st b)
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-- | The parser @permute perm@ parses a permutation of parser described
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-- by @perm@. For example, suppose we want to parse a permutation of:
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-- an optional string of @a@'s, the character @b@ and an optional @c@.
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-- This can be described by:
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--
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-- > test = permute (tuple <$?> ("",many1 (char 'a'))
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-- > <||> char 'b'
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-- > <|?> ('_',char 'c'))
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-- > where
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-- > tuple a b c = (a,b,c)
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-- transform a permutation tree into a normal parser
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permute :: (Stream s Identity tok) => StreamPermParser s st a -> Parsec s st a
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permute (Perm def xs)
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= choice (map branch xs ++ empty)
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where
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empty
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= case def of
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Nothing -> []
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Just x -> [return x]
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branch (Branch perm p)
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= do{ x <- p
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; f <- permute perm
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; return (f x)
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}
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-- build permutation trees
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newperm :: (Stream s Identity tok) => (a -> b) -> StreamPermParser s st (a -> b)
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newperm f
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= Perm (Just f) []
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add :: (Stream s Identity tok) => StreamPermParser s st (a -> b) -> Parsec s st a -> StreamPermParser s st b
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add perm@(Perm _mf fs) p
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= Perm Nothing (first:map insert fs)
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where
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first = Branch perm p
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insert (Branch perm' p')
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= Branch (add (mapPerms flip perm') p) p'
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addopt :: (Stream s Identity tok) => StreamPermParser s st (a -> b) -> a -> Parsec s st a -> StreamPermParser s st b
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addopt perm@(Perm mf fs) x p
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= Perm (fmap ($ x) mf) (first:map insert fs)
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where
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first = Branch perm p
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insert (Branch perm' p')
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= Branch (addopt (mapPerms flip perm') x p) p'
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mapPerms :: (Stream s Identity tok) => (a -> b) -> StreamPermParser s st a -> StreamPermParser s st b
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mapPerms f (Perm x xs)
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= Perm (fmap f x) (map mapBranch xs)
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where
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mapBranch (Branch perm p)
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= Branch (mapPerms (f.) perm) p
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