quox/lib/Quox/Parser/Parser.idr

module Quox.Parser.Parser

import public Quox.Parser.Lexer
import public Quox.Parser.Syntax

import Data.Fin
import Data.Vect
import public Text.Parser

%default total


public export
0 Grammar : Bool -> Type -> Type
Grammar = Core.Grammar () Token
%hide Core.Grammar


export
res : (str : String) -> (0 _ : IsReserved str) => Grammar True ()
res str = terminal "expecting \"\{str}\"" $
  \x => guard $ x == Reserved str

export
resC : (str : String) -> (0 _ : IsReserved str) => Grammar True ()
resC str = do res str; commit


parameters {default True commit : Bool}
  private
  maybeCommit : Grammar False ()
  maybeCommit = when commit Core.commit

  export
  betweenR : {c : Bool} -> (op, cl : String) ->
             (0 _ : IsReserved op) => (0 _ : IsReserved cl) =>
             Grammar c a -> Grammar True a
  betweenR o c p = res o *> maybeCommit *> p <* res c <* maybeCommit

  export
  parens, bracks, braces : {c : Bool} -> Grammar c a -> Grammar True a
  parens = betweenR "(" ")"
  bracks = betweenR "[" "]"
  braces = betweenR "{" "}"


export
commaSep : {c : Bool} -> Grammar c a -> Grammar False (List a)
commaSep = sepEndBy (res ",")
  -- don't commit because of the possible terminating ","

export
semiSep : {c : Bool} -> Grammar c a -> Grammar False (List a)
semiSep = sepEndBy (res ";")

export
commaSep1 : {c : Bool} -> Grammar c a -> Grammar c (List1 a)
commaSep1 = sepEndBy1 (res ",")

export
darr : Grammar True ()
darr = resC "⇒"


export
name : Grammar True PName
name = terminal "expecting name" $
  \case Name i => Just i; _ => Nothing

export
mods : Grammar True Mods
mods = name <&> \n => n.mods :< n.base

export
baseName : Grammar True String
baseName = terminal "expecting unqualified name" $
  \case Name i => guard (null i.mods) $> i.base
        _      => Nothing

export
nat : Grammar True Nat
nat = terminal "expecting natural number" $
  \case Nat n => pure n; _ => Nothing

export
string : Grammar True String
string = terminal "expecting string literal" $
  \case Str s => pure s; _ => Nothing

export
tag : Grammar True String
tag = terminal "expecting tag constructor" $
  \case Tag t => pure t; _ => Nothing

export
bareTag : Grammar True String
bareTag = string <|> [|toDotsP name|]

export
universe : Grammar True PUniverse
universe = terminal "expecting type universe" $
  \case TYPE u => Just u; _ => Nothing

export
bname : Grammar True BName
bname = Nothing <$ res "_"
    <|> [|Just baseName|]

export
zeroOne : (zero, one : a) -> Grammar True a
zeroOne zero one = terminal "expecting zero or one" $
  \case Nat 0 => Just zero; Nat 1 => Just one; _ => Nothing


export covering
qty : Grammar True PQty
qty = zeroOne Zero One
  <|> Any <$ res "ω"
  <|> parens qty

private covering
qtys : Grammar False (List PQty)
qtys = option [] [|toList $ some qty <* res "."|]

export
dimConst : Grammar True DimConst
dimConst = zeroOne Zero One

export covering
dim : Grammar True PDim
dim = [|V baseName|]
  <|> [|K dimConst|]
  <|> parens dim

private
0 PBinderHead : Nat -> Type
PBinderHead n = (Vect n PQty, BName, PTerm)

private
toVect : List a -> (n ** Vect n a)
toVect []        = (_ ** [])
toVect (x :: xs) = (_ ** x :: snd (toVect xs))

private
0 MakeBinder : Nat -> Type
MakeBinder n = (String, PBinderHead n -> PTerm -> PTerm)

private
makePi : MakeBinder 1
makePi = ("→", \([pi], x, s) => Pi pi x s)

private
makeSig : MakeBinder 0
makeSig = ("×", \([], x, s) => Sig x s)

private
makeBinder : {m, n : Nat} -> MakeBinder m -> PBinderHead n -> PTerm ->
             Grammar False PTerm
makeBinder (str, f) h t =
  case decEq m n of
    Yes Refl => pure $ f h t
    No  _    =>
      let q = if m == 1 then "quantity" else "quantities" in
      fatalError "'\{str}' expects \{show m} \{q}, got \{show n}"

private
binderInfix : Grammar True (n ** MakeBinder n)
binderInfix = res "→" $> (1 ** makePi)
          <|> res "×" $> (0 ** makeSig)

private
lamIntro : Grammar True (BName -> PTerm -> PTerm)
lamIntro = Lam  <$ resC "λ"
       <|> DLam <$ resC "δ"

private covering
caseIntro : Grammar True PQty
caseIntro = resC "case1" $> One
        <|> resC "caseω" $> Any
        <|> resC "case" *> qty <* resC "."

private
optNameBinder : Grammar False BName
optNameBinder = [|join $ optional $ bname <* darr|]

mutual
  export covering
  term : Grammar True PTerm
  term = lamTerm
     <|> caseTerm
     <|> bindTerm
     <|> [|annotate infixEqTerm (optional $ resC "∷" *> term)|]
  where
    annotate : PTerm -> Maybe PTerm -> PTerm
    annotate s a = maybe s (s :#) a

  private covering
  lamTerm : Grammar True PTerm
  lamTerm = flip . foldr <$> lamIntro <*> some bname <* darr <*> term

  private covering
  caseTerm : Grammar True PTerm
  caseTerm =
    [|Case caseIntro term
           (resC "return" *> optBinderTerm)
           (resC "of"     *> braces caseBody)|]

  private covering
  caseBody : Grammar False PCaseBody
  caseBody = [|CasePair (pairPat <* darr) (term <* optSemi)|]
         <|> [|CaseEnum $ semiSep [|MkPair tag (darr *> term)|]|]
  where
    optSemi = ignore $ optional $ res ";"
    pairPat = parens [|MkPair bname (resC "," *> bname)|]

  private covering
  bindTerm : Grammar True PTerm
  bindTerm = do
    bnd <- binderHead
    inf <- binderInfix
    body <- term
    makeBinder (snd inf) (snd bnd) body

  private covering
  infixEqTerm : Grammar True PTerm
  infixEqTerm = do
    l <- infixTimesTerm
    rty <- optional [|MkPair (resC "≡" *> term) (resC ":" *> infixTimesTerm)|]
    pure $ maybe l (\rty => Eq (Nothing, snd rty) l (fst rty)) rty

  private covering
  infixTimesTerm : Grammar True PTerm
  infixTimesTerm = foldr1 (Sig Nothing) <$> sepBy1 (resC "×") appTerm

  private covering
  appTerm : Grammar True PTerm
  appTerm = resC "★"  *> [|TYPE nat|]
        <|> resC "Eq" *> [|Eq (bracks optBinderTerm) aTerm aTerm|]
        <|> [|apply aTerm (many appArg)|]
  where
    data PArg = TermArg PTerm | DimArg PDim

    appArg : Grammar True PArg
    appArg = [|DimArg $ resC "@" *> dim|]
         <|> [|TermArg aTerm|]

    apply : PTerm -> List PArg -> PTerm
    apply = foldl apply1 where
      apply1 : PTerm -> PArg -> PTerm
      apply1 f (TermArg x) = f :@ x
      apply1 f (DimArg  p) = f :% p

  private covering
  aTerm : Grammar True PTerm
  aTerm = [|Enum $ braces $ commaSep bareTag|]
      <|> [|TYPE universe|]
      <|> [|V name|]
      <|> [|Tag tag|]
      <|> foldr1 Pair <$> parens (commaSep1 term)

  private covering
  binderHead : Grammar True (n ** PBinderHead n)
  binderHead = parens {commit = False} $ do
    qs <- [|toVect qtys|]
    name <- bname
    resC ":"
    ty <- term
    pure (qs.fst ** (qs.snd, name, ty))

  private covering
  optBinderTerm : Grammar True (BName, PTerm)
  optBinderTerm = [|MkPair optNameBinder term|]


export covering
defIntro : Grammar True PQty
defIntro = Zero <$ resC "def0"
       <|> Any  <$ resC "defω"
       <|> resC "def" *> option Any (qty <* resC ".")

export covering
definition : Grammar True PDefinition
definition =
  [|MkPDef defIntro name (optional (resC ":" *> term)) (resC "=" *> term)|]

export
load : Grammar True String
load = resC "load" *> string

mutual
  export covering
  namespace_ : Grammar True PNamespace
  namespace_ =
    [|MkPNamespace (resC "namespace" *> mods) (braces $ many decl)|]

  export covering
  decl : Grammar True PDecl
  decl = [|PDef definition|]
     <|> [|PNs  namespace_|]

export covering
topLevel : Grammar True PTopLevel
topLevel = [|PLoad load|]
       <|> [|PD    decl|]

export covering
input : Grammar False (List PTopLevel)
input = skipSemis *> many (topLevel <* skipSemis)
  where skipSemis = ignore $ many $ resC ";"


public export
data Error =
    LexError   Lexer.Error
  | ParseError (List1 (ParsingError Token))
%hide Lexer.Error

export
lexParseWith : {c : Bool} -> Grammar c a -> String -> Either Error a
lexParseWith grm input = do
  toks <- mapFst LexError $ lex input
  bimap ParseError fst $ parse (grm <* eof) toks

export covering %inline
lexParseInput : String -> Either Error (List PTopLevel)
lexParseInput = lexParseWith input

export covering %inline
lexParseTerm : String -> Either Error PTerm
lexParseTerm = lexParseWith term