Safe Haskell | None |
---|---|
Language | Haskell2010 |
- data WellFormedSExpr atom
- = WFSList [WellFormedSExpr atom]
- | WFSAtom atom
- toWellFormed :: SExpr atom -> Either String (WellFormedSExpr atom)
- fromWellFormed :: WellFormedSExpr atom -> SExpr atom
- cons :: WellFormedSExpr a -> WellFormedSExpr a -> Maybe (WellFormedSExpr a)
- uncons :: WellFormedSExpr a -> Maybe (WellFormedSExpr a, WellFormedSExpr a)
- pattern (:::) :: forall a. WellFormedSExpr a -> WellFormedSExpr a -> WellFormedSExpr a
- pattern L :: forall t. [WellFormedSExpr t] -> WellFormedSExpr t
- pattern A :: forall t. t -> WellFormedSExpr t
- pattern Nil :: forall t. WellFormedSExpr t
- fromPair :: (WellFormedSExpr t -> Either String a) -> (WellFormedSExpr t -> Either String b) -> WellFormedSExpr t -> Either String (a, b)
- fromList :: (WellFormedSExpr t -> Either String a) -> WellFormedSExpr t -> Either String [a]
- fromAtom :: WellFormedSExpr t -> Either String t
- asPair :: ((WellFormedSExpr t, WellFormedSExpr t) -> Either String a) -> WellFormedSExpr t -> Either String a
- asList :: ([WellFormedSExpr t] -> Either String a) -> WellFormedSExpr t -> Either String a
- isAtom :: Eq t => t -> WellFormedSExpr t -> Either String ()
- isNil :: WellFormedSExpr t -> Either String ()
- asAtom :: (t -> Either String a) -> WellFormedSExpr t -> Either String a
- asAssoc :: ([(WellFormedSExpr t, WellFormedSExpr t)] -> Either String a) -> WellFormedSExpr t -> Either String a
- car :: (WellFormedSExpr t -> Either String t') -> [WellFormedSExpr t] -> Either String t'
- cdr :: ([WellFormedSExpr t] -> Either String t') -> [WellFormedSExpr t] -> Either String t'
WellFormedSExpr
representation
data WellFormedSExpr atom Source #
A well-formed s-expression is one which does not
contain any dotted lists. This means that not
every value of SExpr a
can be converted to a
WellFormedSExpr a
, although the opposite is
fine.
WFSList [WellFormedSExpr atom] | |
WFSAtom atom |
Functor WellFormedSExpr Source # | |
Foldable WellFormedSExpr Source # | |
Traversable WellFormedSExpr Source # | |
IsList (WellFormedSExpr atom) Source # | |
Eq atom => Eq (WellFormedSExpr atom) Source # | |
Data atom => Data (WellFormedSExpr atom) Source # | |
Read atom => Read (WellFormedSExpr atom) Source # | |
Show atom => Show (WellFormedSExpr atom) Source # | |
IsString atom => IsString (WellFormedSExpr atom) Source # | |
type Item (WellFormedSExpr atom) Source # | |
toWellFormed :: SExpr atom -> Either String (WellFormedSExpr atom) Source #
This will be Nothing
if the argument contains an
improper list. It should hold that
toWellFormed (fromWellFormed x) == Right x
and also (more tediously) that
case toWellFormed x of Left _ -> True Right y -> x == fromWellFormed y
fromWellFormed :: WellFormedSExpr atom -> SExpr atom Source #
Convert a WellFormedSExpr back into a SExpr.
Constructing and Deconstructing
cons :: WellFormedSExpr a -> WellFormedSExpr a -> Maybe (WellFormedSExpr a) Source #
Combine the two-expressions into a new one. This will return
Nothing
if the resulting s-expression is not well-formed.
>>>
cons (A "el") (L [A "eph", A "ant"])
Just (WFSList [WFSAtom "el",WFSAtom "eph",WFSAtom "ant"])>>>
cons (A "pachy") (A "derm"))
Nothing
uncons :: WellFormedSExpr a -> Maybe (WellFormedSExpr a, WellFormedSExpr a) Source #
Produce the head and tail of the s-expression (if possible).
>>>
uncons (L [A "el", A "eph", A "ant"])
Just (WFSAtom "el",WFSList [WFSAtom "eph",WFSAtom "ant"])
Useful pattern synonyms
pattern (:::) :: forall a. WellFormedSExpr a -> WellFormedSExpr a -> WellFormedSExpr a Source #
A shorter infix alias to grab the head and tail of a WFSList
. This
pattern is unidirectional, because it cannot be guaranteed that it
is used to construct well-formed s-expressions; use the function "cons"
instead.
>>>
let sum (x ::: xs) = x + sum xs; sum Nil = 0
pattern L :: forall t. [WellFormedSExpr t] -> WellFormedSExpr t Source #
A shorter alias for WFSList
>>>
L [A "pachy", A "derm"]
WFSList [WFSAtom "pachy",WFSAtom "derm"]
pattern A :: forall t. t -> WellFormedSExpr t Source #
A shorter alias for WFSAtom
>>>
A "elephant"
WFSAtom "elephant"
pattern Nil :: forall t. WellFormedSExpr t Source #
A shorter alias for WFSList
[]
>>>
Nil
WFSList []
Useful processing functions
fromPair :: (WellFormedSExpr t -> Either String a) -> (WellFormedSExpr t -> Either String b) -> WellFormedSExpr t -> Either String (a, b) Source #
Utility function for parsing a pair of things.
>>>
fromPair (isAtom "pachy") (asAtom return) (L [A "pachy", A "derm"])
Right ((), "derm")>>>
fromPair (isAtom "pachy") fromAtom (L [A "pachy"])
Left "Expected two-element list"
fromList :: (WellFormedSExpr t -> Either String a) -> WellFormedSExpr t -> Either String [a] Source #
Utility function for parsing a list of things.
>>>
fromList fromAtom (L [A "this", A "that", A "the-other"])
Right ["this","that","the-other"]>>>
fromList fromAtom (A "pachyderm")
Left "asList: expected proper list; found dotted list"
fromAtom :: WellFormedSExpr t -> Either String t Source #
Utility function for parsing a single atom
>>>
fromAtom (A "elephant")
Right "elephant">>>
fromAtom (L [A "elephant"])
Left "fromAtom: expected atom; found list"
asPair :: ((WellFormedSExpr t, WellFormedSExpr t) -> Either String a) -> WellFormedSExpr t -> Either String a Source #
Parses a two-element list using the provided function.
>>>
let go (A l) (A r) = return (l ++ r); go _ _ = Left "expected atoms"
>>>
asPair go (L [A "pachy", A "derm"])
Right "pachyderm">>>
asPair go (L [A "elephant"])
Left "asPair: expected two-element list; found list of length 1"
asList :: ([WellFormedSExpr t] -> Either String a) -> WellFormedSExpr t -> Either String a Source #
Parse an arbitrary-length list using the provided function.
>>>
let go xs = concat <$> mapM fromAtom xs
>>>
asList go (L [A "el", A "eph", A "ant"])
Right "elephant">>>
asList go (A "pachyderm")
Left "asList: expected list; found atom"
isAtom :: Eq t => t -> WellFormedSExpr t -> Either String () Source #
Match a given literal atom, failing otherwise.
>>>
isAtom "elephant" (A "elephant")
Right ()>>>
isAtom "elephant" (L [A "elephant"])
Left "isAtom: expected atom; found list"
isNil :: WellFormedSExpr t -> Either String () Source #
Match an empty list, failing otherwise.
>>>
isNil (L [])
Right ()>>>
isNil (A "elephant")
Left "isNil: expected nil; found atom"
asAtom :: (t -> Either String a) -> WellFormedSExpr t -> Either String a Source #
Parse an atom using the provided function.
>>>
import Data.Char (toUpper)
>>>
asAtom (return . map toUpper) (A "elephant")
Right "ELEPHANT">>>
asAtom (return . map toUpper) (L [])
Left "asAtom: expected atom; found list"
asAssoc :: ([(WellFormedSExpr t, WellFormedSExpr t)] -> Either String a) -> WellFormedSExpr t -> Either String a Source #
Parse an assoc-list using the provided function.
>>>
let def (x, y) = do { a <- fromAtom x; b <- fromAtom y; return (a ++ ": " ++ b) }
>>>
let defList xs = do { defs <- mapM def xs; return (unlines defs) }
>>>
asAssoc defList (L [ L [A "legs", A "four"], L [ A "trunk", A "one"] ])
Right "legs: four\ntrunk: one\n">>>
asAssoc defList (L [ L [A "legs", A "four"], L [ A "elephant"] ])
Left "asAssoc: expected pair; found list of length 1"
car :: (WellFormedSExpr t -> Either String t') -> [WellFormedSExpr t] -> Either String t' Source #
Run the parser on the first element of a Haskell list of WellFormedSExpr values,
failing if the list is empty. This is useful in conjunction with the asList
function.
cdr :: ([WellFormedSExpr t] -> Either String t') -> [WellFormedSExpr t] -> Either String t' Source #
Run the parser on all but the first element of a Haskell list of WellFormedSExpr values,
failing if the list is empty. This is useful in conjunction with the asList
function.