Plan 9 from Bell Labs’s /usr/web/sources/contrib/fernan/nhc98/src/compiler98/Parse/Parse.hs

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


{- ---------------------------------------------------------------------------
Parser for Haskell 98 Syntax
-}
module Parse.Parse(parseProg) where

import Util.Extra(pair,noPos,strace,strPos,mergePos)
import Parse.Lex
import Parse.Lexical(PosToken)
import Syntax
import MkSyntax ( mkAppExp, mkCase, mkDeclClass
        , mkDeclFun, mkDeclPat, mkDeclPatFun
   --   , mkEnumFrom, mkEnumThenFrom, mkEnumToFrom, mkEnumToThenFrom
   --   , mkExpListComp
        , mkSweetListEnum, mkSweetListComp
        , mkIf, mkInfixList, mkExpList
        , mkLambda, mkLet, mkDo, mkFieldExp
        , mkParExp, mkPatNplusK -- , mkParLhs
        )
import Parse.Parse2
import Parse.ParseLib
import Parse.ParseLex
import SyntaxPos
import TokenId (t_nplusk,t_Arrow)

optSemi = () `parseChk` semi
                `orelse`
           parse ()


parseProg :: Parser (Module TokenId) [PosToken] a
parseProg = {- many parsePragma `revChk` -} (parseModule `chkCut` eof)


parseModule :: Parser (Module TokenId) [PosToken] a
parseModule =
    (uncurry Module) `parseChk` lit L_module `apCut` bigModId `ap` parseExports
                 `chk` lit L_where `chk` lcurl
                         `apCut` parseImpDecls
                         `apCut` parseFixDecls
                         `apCut` parseTopDecls
                `chk` optSemi `chk` rcurl


parseTopDecls :: Parser (Decls TokenId) [PosToken] a
parseTopDecls =
  semi `revChk` parseTopDecls
    `orelse`
  DeclsParse `parseAp` manysSep semi parseTopDecl


parseTopDecl :: Parser (Decl TokenId) [PosToken] a
parseTopDecl =
  cases [
  (L_type, \pos -> DeclType `parseAp` parseSimple `chk` equal `ap` parseType),
  (L_newtype, \pos ->
    DeclData Nothing `parseAp` parseContexts `ap` parseSimple `chk`
      equal `apCut` ( (:[]) `parseAp` parseConstr) `apCut` parseDeriving),
  (L_data, \pos ->
      (\ (pos,conid) size -> DeclDataPrim pos conid size) `parseChk`
        k_primitive `ap` conid `chk` equal `apCut` intPrim
    `orelse`
      (DeclData . Just) `parseAp` unboxed `ap` parseContexts `ap`
        parseSimple `chk` equal `apCut`
        someSep pipe parseConstr `apCut` parseDeriving
    `orelse`
      (\ simpl -> DeclData (Just False) [] simpl [] []) `parseAp` parseSimple ),
  (L_class, \pos ->
    mkDeclClass `parseAp` parseContexts `ap` aconid `ap` some avarid `ap`
      parseFunDeps `ap`
      (id `parseChk` lit L_where `chk` lcurl `ap` parseCDecls `chk` rcurl
       `orelse`
       parse (DeclsParse [])
      )),
  (L_instance, \pos->
    (\ctx (pos',cls) -> DeclInstance pos' ctx cls) `parseAp`
      parseContexts `ap` aconid `ap` some parseInst `ap`
      (lit L_where `revChk` lcurl `revChk` parseValdefs `chk` rcurl
       `orelse`
       parse (DeclsParse [])
      )),
  (L_default, \pos ->
    DeclDefault `parseChk` lpar `apCut`
      manySep comma parseType `chk` rpar
    `orelse`
    (\x->DeclDefault [x]) `parseAp` parseType)
  ]
  (uncurry DeclPrimitive `parseAp` varid `chk` k_primitive `apCut`
     intPrim `chk` coloncolon `ap` parseType
   `orelse`
   parseForeign
   `orelse`
   parseDecl)


parseFunDeps :: Parser [FunDep TokenId] [PosToken] a
parseFunDeps =
  pipe `revChk` someSep comma parseFunDep
    `orelse`
  parse []

parseFunDep :: Parser (FunDep TokenId) [PosToken] a
parseFunDep =
    (:->:) `parseAp` parseTyVars `chk` rarrow `ap` parseTyVars
  where
    parseTyVars :: Parser [TokenId] [PosToken] a
    parseTyVars =
        map snd `parseAp` some avarid
     -- map snd `parseAp` (lpar `revChk` someSep comma avarid `chk` rpar)
     --   `orelse`
     -- ((:[]) . snd) `parseAp` varid

parseForeign :: Parser (Decl TokenId) [PosToken] a
parseForeign =
  k_foreign `revAp`
    ((k_import `revChk`
        ((\(_,conv) (_,tf) (_,LitString _ str) (_,v) t p ->
            DeclForeignImp (mergePos p (getPos t)) conv str v
              (calcArity t) tf t v)
        `parseAp` callconv `ap` safety `ap` entity `ap` varid `chk`
        coloncolon `apCut` parseType))
    `orelse`
    (k_export `revChk`
      ((\(_,conv) (_,LitString _ str) (_,v) t p->
          DeclForeignExp (mergePos p (getPos t)) conv str v t)
      `parseAp` callconv `ap` entity `apCut` varid `chk` coloncolon
      `ap` parseType))
    `orelse`
    (k_import `revChk`  -- old syntax, will be removed in the future
        ((\(_,conv) (_,LitString _ str) (_,tf) (_,v) t p ->
            let p' = mergePos p (getPos t) in
            strace ("Deprecated FFI syntax used at "++strPos p') $
            DeclForeignImp p' conv str v (calcArity t) tf t v)
        `parseAp` (callconv `orelse` is C) `ap` entity `ap`
        safety `apCut` varid `chk` coloncolon `ap` parseType))
 -- `orelse`
 --   (k_cast `revChk`
 --     ((\(p,v) t-> DeclForeignImp p Cast "" v (calcArity t) Safe t v)
 --     `parseAp` varid `chk` coloncolon `ap` parseType))
     )
  where
  callconv = (k_ccall `revChk` is C)
               `orelse`
             (k_cast `revChk` is Cast)
               `orelse`
             (k_noproto `revChk` is Noproto)
               `orelse`
             (k_haskellcall `revChk` is Haskell)
               `orelse`
             (k_stdcall `revChk` is (Other "stdcall"))
               `orelse`
             (k_primitive `revChk` is (Other "primitive"))
               `orelse`
             (k_fastccall `revChk` is (Other "fastccall"))
               `orelse`
             (k_faststdcall `revChk` is (Other "faststdcall"))
               `orelse`
             (k_builtin `revChk` is (Other "builtin"))
               `orelse`
             (k_cplusplus `revChk` is (Other "cplusplus"))
               `orelse`
             (k_dotnet `revChk` is (Other "dotnet"))
               `orelse`
             (k_jvm `revChk` is (Other "jvm"))
               `orelse`
             (parseAp (\(p,tok) -> (p,Other (show tok))) varid)
          --   `orelse`
          -- (is C)  -- previously the default, now the name is mandatory
  is v     = parse (noPos,v)
  entity   = string `orelse` is (LitString UnBoxed "")
  safety   = (k_unsafe `revChk` is Unsafe)
               `orelse`
             (k_safe `revChk` is Safe)
               `orelse`
             (is Safe) -- default is Safe
  calcArity (TypeCons p c ts) | c == t_Arrow  = 1 + calcArity (ts!!1)
  calcArity _                 | otherwise     = 0


parseVarsType :: Parser (Decl TokenId) [PosToken] a
parseVarsType =
  DeclVarsType `parseAp` someSep comma varid `chk` coloncolon `ap`
    parseContexts `ap` parseType

{-
parseNewConstr =
    (\ (pos,op) a ->  [Constr pos op [(Nothing,a)]]) `parseAp` conid `ap` parseInst
-}


-- parseCSigns = DeclsParse `parseAp` manySep semi parseCSign
-- parseCSign = parseVarsType

parseCDecls :: Parser (Decls TokenId) [PosToken] a
parseCDecls = DeclsParse `parseAp` (manysSep semi parseCDecl)   -- H98 added

parseCDecl :: Parser (Decl TokenId) [PosToken] a
parseCDecl = parseVarsType `orelse` parseValdef
                 `orelse` (DeclFixity `parseAp` parseFixDecl)


parseValdefs :: Parser (Decls TokenId) [PosToken] a
parseValdefs =
  semi `revChk` parseValdefs
  `orelse`
  DeclsParse `parseAp` manysSep semi parseValdef


parseValdef :: Parser (Decl TokenId) [PosToken] a
parseValdef =
 mkDeclPat `parseAp` varid `ap` anyop `ap` parsePat `ap`
   parseRhs equal `apCut` parseWhere
 `orelse`
 mkDeclFun `parseAp` varid `ap` parsePats `ap` parseRhs equal `apCut`
   parseWhere
 `orelse`
 mkDeclPatFun `parseAp` parseAlt equal


parseWhere :: Parser (Decls TokenId) [PosToken] a
parseWhere =
    lit L_where `revChk` lcurl `revChk` parseDecls `chk` rcurl
        `orelse`
    parse (DeclsParse [])


parseDecls = DeclsParse `parseAp` (manysSep semi parseDecl)

parseDecl =
    parseVarsType
        `orelse`
    parseValdef
        `orelse`                        -- added in H98
    DeclFixity `parseAp` parseFixDecl   -- added in H98
 {-     `orelse`
    parsePragma                         -- added by MW, Sept 2000
  -}


parseExp :: Parser (Exp TokenId) [PosToken] a
parseExp =
    parseExp0 `revAp` parseExpType

parseExpType :: Parser (Exp TokenId -> Exp TokenId) [PosToken] a
parseExpType =
      (\pos ctx t e-> ExpType (mergePos pos (getPos t)) e ctx t)
              `parseAp` coloncolon `apCut`
              parseContexts `ap` parseType
        `orelse`
      parse id

parseExp0 :: Parser (Exp TokenId) [PosToken] a
parseExp0 = mkInfixList `parseAp` some (anyop `orelse` parseExp10)

parseStmt =
   (lit L_let `into` \_-> lcurl `into` \_-> parseDecls `into`
                 \decls-> rcurl `into` \_->
        ((lit L_in `into` \_-> parseExp `into`
              \exp-> parse (StmtExp (ExpLet
                            (mergePos (getPos decls) (getPos exp)) decls exp)))
            `orelse`
          parse (StmtLet decls)))
        `orelse`
   StmtBind `parseAp` parsePat `chk` larrow `apCut` parseExp
        `orelse`
   StmtExp `parseAp` parseExp

parseExp10 =
    cases
        [(L_Lambda,\pos -> (mkLambda pos)
           `parseAp` parsePats `chk` rarrow `apCut` parseExp),
         (L_let,   \pos -> (mkLet pos)
           `parseChk` lcurl `ap` parseDecls
           `chk` optSemi `chk` rcurl
           `chk` lit L_in `ap` parseExp),
         (L_do,    \pos -> (mkDo pos)
           `parseChk` lcurl `ap` somesSep semi parseStmt
           `chk` optSemi `chk` rcurl),
         (L_if,    \pos -> (mkIf pos)
           `parseAp` parseExp
           `chk` lit L_then `ap` parseExp
           `chk` lit L_else `ap` parseExp),
         (L_case,  \pos -> (mkCase pos)
           `parseAp` parseExp `chk` lit L_of
           `chk` lcurl `ap` (somesSep semi (parseAlt rarrow))
           `chk` optSemi `chk` rcurl)]
         parseFExp

parseFExp  = mkAppExp `parseAp` some parseAExpR1

parseAExpR1 =
  parseAExp `into` parseAExpR

parseAExpR exp =
   (ExpRecord exp `parseChk` lcurl `ap` manySep comma parseFieldExp `chk` rcurl)            `into` parseAExpR
        `orelse`
   parse exp

parseAExp =
    aanyid
        `orelse`
    cases
         [(L_LBRACK, \pos -> parseBrackExp0 pos),
          (L_LPAR,   \pos -> (mkParExp pos) `parseAp` manySep comma parseExp
                                            `ap` rpar)]
    (uncurry ExpLit `parseAp`
            (integer `orelse` rational `orelse` char `orelse` string))


parseFieldExp =
    varid `into` (\(pos,ident)-> (mkFieldExp pos ident `parseChk` equal
                                                       `ap` parseExp)
                                        `orelse`                -- H98 removes
                                 parse (FieldPun pos ident)     -- H98 removes
                 )

parseBrackExp0 pos =                -- found '['
    (mkExpList pos []) `parseAp` rbrack
        `orelse`
    parseExp `revAp` parseBrackExp1 pos

-- keeping list comprehensions and list enumerations in sugared form
parseBrackExp1 pos = -- found '[e'
    (\posr e -> mkExpList pos [e] posr) `parseAp` rbrack
        `orelse`
    (\posr ef -> mkSweetListEnum pos ef Nothing Nothing posr)
                      `parseChk` dotdot
                      `ap` rbrack
        `orelse`
    (\qs posr e -> mkSweetListComp pos e qs posr)
                      `parseChk` pipe
                      `ap` somesSep comma parseQual
                      `ap` rbrack
        `orelse`
    (\eto posr ef -> mkSweetListEnum pos ef Nothing (Just eto) posr)
                      `parseChk` dotdot
                      `ap` parseExp
                      `ap` rbrack
        `orelse`
    comma `revChk` (parseExp `revAp` parseBrackExp2 pos)

parseBrackExp2 pos =                -- found '[e,e'
    (\posr e2 e1 -> mkExpList pos [e1,e2] posr) `parseAp` rbrack
        `orelse`
    (\posr eth ef -> mkSweetListEnum pos ef (Just eth) Nothing posr)
                      `parseChk` dotdot
                      `ap` rbrack
        `orelse`
    (\eto posr eth ef -> mkSweetListEnum pos ef (Just eth) (Just eto) posr)
                      `parseChk` dotdot
                      `ap` parseExp
                      `ap` rbrack
        `orelse`
    (\es posr e2 e1 -> mkExpList pos (e1:e2:es) posr)
                      `parseChk` comma
                      `ap` manySep comma parseExp
                      `ap` rbrack

{-
-- de-sugared version of list comprehensions and list enumerations
--
parseBrackExp1 pos =                -- found '[e'
    (\posr e -> mkExpList pos [e] posr) `parseAp` rbrack
        `orelse`
    mkEnumFrom pos `parseChk` dotdot `chk` rbrack
        `orelse`
    mkExpListComp pos `parseChk` pipe `ap` somesSep comma parseQual `chk` rbrack
        `orelse`
    mkEnumToFrom pos `parseChk` dotdot `ap` parseExp `chk` rbrack
        `orelse`
    comma `revChk` (parseExp `revAp` parseBrackExp2 pos)

parseBrackExp2 pos =                -- found '[e,e'
    (\posr e2 e1 -> mkExpList pos [e1,e2] posr) `parseAp` rbrack
        `orelse`
    mkEnumThenFrom pos `parseChk` dotdot `chk` rbrack
        `orelse`
    mkEnumToThenFrom pos `parseChk` dotdot `ap` parseExp `chk` rbrack
        `orelse`
    (\es posr e2 e1 -> mkExpList pos (e1:e2:es) posr) `parseChk` comma
                                          `ap` manySep comma parseExp
                                          `ap` rbrack
-}

parseQual =
   (lit L_let `into` \_-> lcurl `into` \_-> parseDecls `into`
                 \decls-> rcurl `into` \ _ ->
        ((lit L_in `into` \_-> parseExp `into` \exp->
                        parse (QualExp (ExpLet (getPos decls) decls exp)))
                `orelse`
         parse (QualLet decls)))
        `orelse`
    QualPatExp `parseAp` parsePat `chk` larrow `apCut` parseExp
        `orelse`
    QualExp `parseAp` parseExp

parseAlt del =
    Alt `parseAp` parsePat `ap` parseRhs del `apCut` parseWhere


parseRhs :: Parser Pos [PosToken] a -> Parser (Rhs TokenId) [PosToken] a
parseRhs del =
    Unguarded `parseChk` del `apCut` parseExp
        `orelse`
    PatGuard `parseAp` some (parsePatGdExp del)

parsePatGdExp :: Parser Pos [PosToken] a
              -> Parser ([Qual TokenId], Exp TokenId) [PosToken] a
parsePatGdExp del =
    pair `parseChk` pipe `apCut` somesSep comma parseQual
                         `chk` del `apCut` parseExp


parsePats = some parseAPat


-- Pat can not contain cut! It brakes parseStmt if it does.

manySafe p = someSafe p `orelse` parse []
someSafe p = (:) `parseAp` p `ap` manySafe p

manySepSafe' s p = s `revChk` someSepSafe s p
                 `orelse`
               parse []
manySepSafe s p = someSepSafe s p `orelse` parse []
someSepSafe s p = (:) `parseAp` p `apCut` manySepSafe' s p

parsePat =
    mkPatNplusK `parseAp` varid `chk` literal (L_AVAROP t_nplusk) `ap` integer
        `orelse`
    parsePat0

parsePat0 = mkInfixList `parseAp` someSafe (parseOpPat `orelse` parseFPat)

parseOpPat = anyop

parseFPat =
    (\(pos,c) args -> mkAppExp (ExpCon pos c:args))
                      `parseAp` conid `ap` some parseAPat
        `orelse`
    parseAPat

parseAPat = parseAPat2 `into` parseAPat1

parseFieldPat =
    varid `into` (\(pos,ident)-> mkFieldExp pos ident `parseChk` equal
                                                    `ap` parsePat
                                        `orelse`                -- H98 removes
                                   parse (FieldPun pos ident)   -- H98 removes
                 )

parseAPat1 exp =
   (ExpRecord exp `parseChk` lcurl `ap` manySepSafe comma parseFieldPat
                  `chk` rcurl) `into` parseAPat1
        `orelse`
   parse exp


parseAPat2 =
    varid `revAp` ((\e (pos,i) -> let p = mergePos pos (getPos e)
                                  in p `seq` PatAs pos i e)
                      `parseChk` lit L_At `ap` parseAPat
                        `orelse`
                    parse (\ (pos,e) -> ExpVar pos e)
                  )
        `orelse`
    (\(pos,e) -> ExpCon pos e) `parseAp` aconid
        `orelse`
    PatWildcard `parseAp` lit L_Underscore
        `orelse`
    mkParExp `parseAp` lpar `ap` manySepSafe comma parsePat `ap` rpar
        `orelse`
    mkExpList `parseAp` lbrack `ap` manySepSafe comma parsePat `ap` rbrack
        `orelse`
    PatIrrefutable `parseAp` lit L_Tidle `ap` parseAPat
        `orelse`
    (uncurry ExpLit `parseAp`
         (integer `orelse` rational `orelse` char `orelse` string))
 --     `orelse`
 -- mkParLhs `parseAp` lpar `ap` parsePat0 `chk` rpar `ap` someSafe parseAPat

{- End Module Parse ---------------------------------------------------------}

Bell Labs OSI certified Powered by Plan 9

(Return to Plan 9 Home Page)

Copyright © 2021 Plan 9 Foundation. All Rights Reserved.
Comments to webmaster@9p.io.