mirror of
https://github.com/idris-lang/Idris2.git
synced 2024-11-28 02:23:44 +03:00
commit
6b8324db3b
@ -1439,6 +1439,7 @@ public export
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Functor IO where
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map f io = io_bind io (\b => io_pure (f b))
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%inline
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public export
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Applicative IO where
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pure x = io_pure x
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@ -1335,7 +1335,7 @@ retry mode c
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_ => pure cs
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where
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definedN : Name -> Core Bool
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definedN n
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definedN n@(NS _ (MN _ _)) -- a metavar will only ever be a MN
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= do defs <- get Ctxt
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Just gdef <- lookupCtxtExact n (gamma defs)
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| _ => pure False
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@ -1344,6 +1344,7 @@ retry mode c
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BySearch _ _ _ => pure False
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Guess _ _ _ => pure False
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_ => pure True
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definedN _ = pure True
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delayMeta : {vars : _} ->
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LazyReason -> Nat -> Term vars -> Term vars -> Term vars
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@ -49,13 +49,17 @@ plhs = MkParseOpts False False
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atom : FileName -> Rule PTerm
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atom fname
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= do start <- location
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x <- constant
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end <- location
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pure (PPrimVal (MkFC fname start end) x)
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<|> do start <- location
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exactIdent "Type"
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end <- location
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pure (PType (MkFC fname start end))
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<|> do start <- location
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x <- name
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end <- location
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pure (PRef (MkFC fname start end) x)
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<|> do start <- location
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x <- constant
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end <- location
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pure (PPrimVal (MkFC fname start end) x)
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<|> do start <- location
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symbol "_"
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end <- location
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@ -80,10 +84,6 @@ atom fname
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pragma "search"
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end <- location
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pure (PSearch (MkFC fname start end) 50)
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<|> do start <- location
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x <- name
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end <- location
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pure (PRef (MkFC fname start end) x)
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whereBlock : FileName -> Int -> Rule (List PDecl)
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whereBlock fname col
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@ -155,23 +155,23 @@ escape' ('\\' :: 'o' :: xs)
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escape' ('\\' :: xs)
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= case span isDigit xs of
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([], (a :: b :: c :: rest)) =>
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case getEsc (pack (the (List _) [a, b, c])) of
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case getEsc (fastPack (the (List _) [a, b, c])) of
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Just v => Just (v :: !(assert_total (escape' rest)))
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Nothing => case getEsc (pack (the (List _) [a, b])) of
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Nothing => case getEsc (fastPack (the (List _) [a, b])) of
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Just v => Just (v :: !(assert_total (escape' (c :: rest))))
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Nothing => escape' xs
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([], (a :: b :: [])) =>
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case getEsc (pack (the (List _) [a, b])) of
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case getEsc (fastPack (the (List _) [a, b])) of
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Just v => Just (v :: [])
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Nothing => escape' xs
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([], rest) => assert_total (escape' rest)
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(ds, rest) => Just $ cast (cast {to=Int} (pack ds)) ::
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(ds, rest) => Just $ cast (cast {to=Int} (fastPack ds)) ::
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!(assert_total (escape' rest))
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escape' (x :: xs) = Just $ x :: !(escape' xs)
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export
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escape : String -> Maybe String
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escape x = pure $ pack !(escape' (unpack x))
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escape x = pure $ fastPack !(escape' (unpack x))
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export
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getCharLit : String -> Maybe Char
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@ -168,23 +168,11 @@ tokenise pred line col acc tmap str
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getFirstToken [] str = Nothing
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getFirstToken ((lex, fn) :: ts) str
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= case scan lex [] str of
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Just (tok, rest) => Just (MkToken line col (fn (pack (reverse tok))),
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Just (tok, rest) => Just (MkToken line col (fn (fastPack (reverse tok))),
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line + cast (countNLs tok),
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getCols tok col, rest)
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Nothing => getFirstToken ts str
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-- faster than the prelude version since there's no intermediate StrM
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funpack' : String -> List Char -> List Char
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funpack' "" acc = reverse acc
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funpack' str acc
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= assert_total $
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let x = prim__strHead str
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xs = prim__strTail str in
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funpack' xs (x :: acc)
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funpack : String -> List Char
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funpack str = funpack' str []
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||| Given a mapping from lexers to token generating functions (the
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||| TokenMap a) and an input string, return a list of recognised tokens,
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||| and the line, column, and remainder of the input at the first point in the
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@ -193,11 +181,11 @@ export
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lex : TokenMap a -> String -> (List (TokenData a), (Int, Int, String))
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lex tmap str
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= let (ts, (l, c, str')) = tokenise (const False) 0 0 [] tmap (unpack str) in
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(ts, (l, c, pack str'))
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(ts, (l, c, fastPack str'))
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export
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lexTo : (TokenData a -> Bool) ->
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TokenMap a -> String -> (List (TokenData a), (Int, Int, String))
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lexTo pred tmap str
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= let (ts, (l, c, str')) = tokenise pred 0 0 [] tmap (unpack str) in
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(ts, (l, c, pack str'))
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(ts, (l, c, fastPack str'))
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@ -38,7 +38,7 @@ data Grammar : (tok : Type) -> (consumes : Bool) -> Type -> Type where
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||| guaranteed to consume some input. If the first one consumes input, the
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||| second is allowed to be recursive (because it means some input has been
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||| consumed and therefore the input is smaller)
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export -- %inline
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export %inline
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(>>=) : {c1, c2 : Bool} ->
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Grammar tok c1 a ->
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inf c1 (a -> Grammar tok c2 b) ->
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@ -49,7 +49,7 @@ export -- %inline
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||| Sequence two grammars. If either consumes some input, the sequence is
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||| guaranteed to consume input. This is an explicitly non-infinite version
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||| of `>>=`.
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export
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export %inline
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seq : {c1,c2 : Bool} ->
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Grammar tok c1 a ->
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(a -> Grammar tok c2 b) ->
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@ -57,7 +57,7 @@ seq : {c1,c2 : Bool} ->
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seq = SeqEmpty
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||| Sequence a grammar followed by the grammar it returns.
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export
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export %inline
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join : {c1,c2 : Bool} ->
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Grammar tok c1 (Grammar tok c2 a) ->
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Grammar tok (c1 || c2) a
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@ -66,7 +66,7 @@ join {c1 = True} p = SeqEat p id
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||| Give two alternative grammars. If both consume, the combination is
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||| guaranteed to consume.
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export
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export %inline
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(<|>) : {c1,c2 : Bool} ->
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Grammar tok c1 ty ->
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Lazy (Grammar tok c2 ty) ->
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@ -94,7 +94,7 @@ Functor (Grammar tok c) where
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||| with value type `a`. If both succeed, apply the function
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||| from the first grammar to the value from the second grammar.
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||| Guaranteed to consume if either grammar consumes.
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export
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export %inline
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(<*>) : {c1, c2 : Bool} ->
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Grammar tok c1 (a -> b) ->
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Grammar tok c2 a ->
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@ -103,7 +103,7 @@ export
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||| Sequence two grammars. If both succeed, use the value of the first one.
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||| Guaranteed to consume if either grammar consumes.
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export
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export %inline
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(<*) : {c1,c2 : Bool} ->
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Grammar tok c1 a ->
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Grammar tok c2 b ->
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@ -112,7 +112,7 @@ export
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||| Sequence two grammars. If both succeed, use the value of the second one.
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||| Guaranteed to consume if either grammar consumes.
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export
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export %inline
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(*>) : {c1,c2 : Bool} ->
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Grammar tok c1 a ->
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Grammar tok c2 b ->
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@ -135,82 +135,66 @@ mapToken f (SeqEmpty act next) = SeqEmpty (mapToken f act) (\x => mapToken f (ne
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mapToken f (Alt x y) = Alt (mapToken f x) (mapToken f y)
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||| Always succeed with the given value.
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export
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export %inline
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pure : (val : ty) -> Grammar tok False ty
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pure = Empty
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||| Check whether the next token satisfies a predicate
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export
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export %inline
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nextIs : String -> (tok -> Bool) -> Grammar tok False tok
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nextIs = NextIs
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||| Look at the next token in the input
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export
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export %inline
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peek : Grammar tok False tok
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peek = nextIs "Unrecognised token" (const True)
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||| Succeeds if running the predicate on the next token returns Just x,
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||| returning x. Otherwise fails.
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export
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export %inline
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terminal : String -> (tok -> Maybe a) -> Grammar tok True a
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terminal = Terminal
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||| Always fail with a message
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export
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export %inline
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fail : String -> Grammar tok c ty
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fail = Fail False
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export
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export %inline
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fatalError : String -> Grammar tok c ty
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fatalError = Fail True
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||| Succeed if the input is empty
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export
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export %inline
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eof : Grammar tok False ()
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eof = EOF
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||| Commit to an alternative; if the current branch of an alternative
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||| fails to parse, no more branches will be tried
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export
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export %inline
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commit : Grammar tok False ()
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commit = Commit
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||| If the parser fails, treat it as a fatal error
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export
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export %inline
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mustWork : {c : Bool} -> Grammar tok c ty -> Grammar tok c ty
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mustWork = MustWork
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data ParseResult : List tok -> (consumes : Bool) -> Type -> Type where
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Failure : {xs : List tok} ->
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(committed : Bool) -> (fatal : Bool) ->
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(err : String) -> (rest : List tok) -> ParseResult xs c ty
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EmptyRes : (committed : Bool) ->
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(val : ty) -> (more : List tok) -> ParseResult more False ty
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NonEmptyRes : {xs : List tok} ->
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(committed : Bool) ->
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(val : ty) -> (more : List tok) ->
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ParseResult (x :: xs ++ more) c ty
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-- Take the result of an alternative branch, reset the commit flag to
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-- the commit flag from the outer alternative, and weaken the 'consumes'
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-- flag to take both alternatives into account
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weakenRes : {whatever, c : Bool} -> {xs : List tok} ->
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(com' : Bool) ->
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ParseResult xs c ty -> ParseResult xs (whatever && c) ty
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weakenRes com' (Failure com fatal msg ts) = Failure com' fatal msg ts
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weakenRes {whatever=True} com' (EmptyRes com val xs) = EmptyRes com' val xs
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weakenRes {whatever=False} com' (EmptyRes com val xs) = EmptyRes com' val xs
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weakenRes com' (NonEmptyRes com val more) = NonEmptyRes com' val more
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data ParseResult : Type -> Type -> Type where
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Failure : (committed : Bool) -> (fatal : Bool) ->
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(err : String) -> (rest : List tok) -> ParseResult tok ty
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Res : (committed : Bool) ->
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(val : ty) -> (more : List tok) -> ParseResult tok ty
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mutual
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doParse : (commit : Bool) ->
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(act : Grammar tok c ty) ->
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(xs : List tok) ->
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ParseResult xs c ty
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doParse com (Empty val) xs = EmptyRes com val xs
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ParseResult tok ty
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doParse com (Empty val) xs = Res com val xs
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doParse com (Fail fatal str) [] = Failure com fatal str []
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doParse com (Fail fatal str) (x :: xs) = Failure com fatal str (x :: xs)
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doParse com Commit xs = EmptyRes True () xs
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doParse com Commit xs = Res True () xs
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doParse com (MustWork g) xs =
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let p' = assert_total (doParse com g xs) in
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case p' of
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@ -220,14 +204,14 @@ mutual
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doParse com (Terminal err f) (x :: xs)
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= case f x of
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Nothing => Failure com False err (x :: xs)
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Just a => NonEmptyRes com {xs=[]} a xs
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doParse com EOF [] = EmptyRes com () []
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Just a => Res com a xs
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doParse com EOF [] = Res com () []
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doParse com EOF (x :: xs)
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= Failure com False "Expected end of input" (x :: xs)
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doParse com (NextIs err f) [] = Failure com False "End of input" []
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doParse com (NextIs err f) (x :: xs)
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= if f x
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then EmptyRes com x (x :: xs)
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then Res com x (x :: xs)
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else Failure com False err (x :: xs)
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doParse com (Alt {c1} {c2} x y) xs
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= case doParse False x xs of
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@ -236,40 +220,23 @@ mutual
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-- If the alternative had committed, don't try the
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-- other branch (and reset commit flag)
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then Failure com fatal msg ts
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else weakenRes {whatever = c1} com (assert_total (doParse False y xs))
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else assert_total (doParse False y xs)
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-- Successfully parsed the first option, so use the outer commit flag
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EmptyRes _ val xs => EmptyRes com val xs
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NonEmptyRes {xs=xs'} _ val more => NonEmptyRes {xs=xs'} com val more
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doParse com (SeqEmpty {c1} {c2} act next) xs
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= case assert_total (doParse {c=c1} com act xs) of
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Res _ val xs => Res com val xs
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doParse com (SeqEmpty act next) xs
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= case assert_total (doParse com act xs) of
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Failure com fatal msg ts => Failure com fatal msg ts
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EmptyRes com val xs =>
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Res com val xs =>
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case assert_total (doParse com (next val) xs) of
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Failure com' fatal msg ts => Failure com' fatal msg ts
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EmptyRes com' val xs => EmptyRes com' val xs
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NonEmptyRes {xs=xs'} com' val more =>
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NonEmptyRes {xs=xs'} com' val more
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NonEmptyRes {x} {xs=ys} com val more =>
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case assert_total (doParse com (next val) more) of
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Res com' val xs => Res com' val xs
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doParse com (SeqEat act next) xs
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= case assert_total (doParse com act xs) of
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Failure com fatal msg ts => Failure com fatal msg ts
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Res com val xs =>
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case assert_total (doParse com (next val) xs) of
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Failure com' fatal msg ts => Failure com' fatal msg ts
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EmptyRes com' val _ => NonEmptyRes {xs=ys} com' val more
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NonEmptyRes {x=x1} {xs=xs1} com' val more' =>
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rewrite appendAssociative (x :: ys) (x1 :: xs1) more' in
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NonEmptyRes {xs = ys ++ (x1 :: xs1)} com' val more'
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doParse com (SeqEat act next) xs with (doParse com act xs)
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doParse com (SeqEat act next) xs | Failure com' fatal msg ts
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= Failure com' fatal msg ts
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doParse com (SeqEat act next) (x :: (ys ++ more)) | (NonEmptyRes {xs=ys} com' val more)
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= let p' = assert_total (doParse com' (next val) more) in
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case p' of -- doParse com' (next val) more of
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Failure com' fatal msg ts => Failure com' fatal msg ts
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EmptyRes com' val _ => NonEmptyRes {xs=ys} com' val more
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NonEmptyRes {x=x1} {xs=xs1} com' val more' =>
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rewrite appendAssociative (x :: ys) (x1 :: xs1) more' in
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NonEmptyRes {xs = ys ++ (x1 :: xs1)} com' val more'
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-- This next line is not strictly necessary, but it stops the coverage
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-- checker taking a really long time and eating lots of memory...
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-- doParse _ _ _ = Failure True True "Help the coverage checker!" []
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Res com' val xs => Res com' val xs
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public export
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data ParsingError tok = Error String (List tok)
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@ -283,5 +250,4 @@ parse : {c : Bool} -> (act : Grammar tok c ty) -> (xs : List tok) ->
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parse act xs
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= case doParse False act xs of
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Failure _ _ msg ts => Left (Error msg ts)
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EmptyRes _ val rest => pure (val, rest)
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NonEmptyRes _ val rest => pure (val, rest)
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Res _ val rest => pure (val, rest)
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|
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Block a user