+
+------------------------------------------------------------------
+-- A primop-table mangling program --
+------------------------------------------------------------------
+
+module Main where
+
+import Parsec
+import Monad
+import Char
+import List
+import System ( getArgs )
+import Maybe ( catMaybes )
+
+main = getArgs >>= \args ->
+ if length args /= 1 || head args `notElem` known_args
+ then error ("usage: genprimopcode command < primops.txt > ...\n"
+ ++ " where command is one of\n"
+ ++ unlines (map (" "++) known_args)
+ )
+ else
+ do s <- getContents
+ let pres = parse pTop "" s
+ case pres of
+ Left err -> do putStr "parse error at "
+ print err
+ Right p_o_specs
+ -> myseq (sanityTop p_o_specs) (
+ case head args of
+
+ "--data-decl"
+ -> putStr (gen_data_decl p_o_specs)
+
+ "--has-side-effects"
+ -> putStr (gen_switch_from_attribs
+ "has_side_effects"
+ "primOpHasSideEffects" p_o_specs)
+
+ "--out-of-line"
+ -> putStr (gen_switch_from_attribs
+ "out_of_line"
+ "primOpOutOfLine" p_o_specs)
+
+ "--commutable"
+ -> putStr (gen_switch_from_attribs
+ "commutable"
+ "commutableOp" p_o_specs)
+
+ "--needs-wrapper"
+ -> putStr (gen_switch_from_attribs
+ "needs_wrapper"
+ "primOpNeedsWrapper" p_o_specs)
+
+ "--can-fail"
+ -> putStr (gen_switch_from_attribs
+ "can_fail"
+ "primOpCanFail" p_o_specs)
+
+ "--strictness"
+ -> putStr (gen_switch_from_attribs
+ "strictness"
+ "primOpStrictness" p_o_specs)
+
+ "--usage"
+ -> putStr (gen_switch_from_attribs
+ "usage"
+ "primOpUsg" p_o_specs)
+
+ "--primop-primop-info"
+ -> putStr (gen_primop_info p_o_specs)
+
+ "--primop-tag"
+ -> putStr (gen_primop_tag p_o_specs)
+
+ "--primop-list"
+ -> putStr (gen_primop_list p_o_specs)
+
+ "--c-bytecode-enum"
+ -> putStr (gen_enum_decl p_o_specs)
+
+ )
+
+
+known_args
+ = [ "--data-decl",
+ "--has-side-effects",
+ "--out-of-line",
+ "--commutable",
+ "--needs-wrapper",
+ "--can-fail",
+ "--strictness",
+ "--usage",
+ "--primop-primop-info",
+ "--primop-tag",
+ "--primop-list",
+
+ "--c-bytecode-enum"
+ ]
+
+------------------------------------------------------------------
+-- Code generators -----------------------------------------------
+------------------------------------------------------------------
+
+gen_primop_list (Info defaults pos)
+ = unlines (
+ [ " [" ++ cons (head pos) ]
+ ++
+ map (\pi -> " , " ++ cons pi) (tail pos)
+ ++
+ [ " ]" ]
+ )
+
+gen_primop_tag (Info defaults pos)
+ = unlines (zipWith f pos [1..])
+ where
+ f i n = "tagOf_PrimOp " ++ cons i
+ ++ " = ILIT(" ++ show n ++ ") :: FAST_INT"
+
+gen_enum_decl (Info defaults pos)
+ = let conss = map cons pos
+ in "enum PrimOp {\n " ++ head conss ++ "\n"
+ ++ unlines (map (" , "++) (tail conss)) ++ "};\n"
+
+gen_data_decl (Info defaults pos)
+ = let conss = map cons pos
+ in "data PrimOp\n = " ++ head conss ++ "\n"
+ ++ unlines (map (" | "++) (tail conss))
+
+gen_switch_from_attribs :: String -> String -> Info -> String
+gen_switch_from_attribs attrib_name fn_name (Info defaults pos)
+ = let defv = lookup_attrib attrib_name defaults
+ alts = catMaybes (map mkAlt pos)
+
+ getAltRhs (OptionFalse _) = "False"
+ getAltRhs (OptionTrue _) = "True"
+ getAltRhs (OptionString _ s) = s
+
+ mkAlt po
+ = case lookup_attrib attrib_name (opts po) of
+ Nothing -> Nothing
+ Just xx -> Just (fn_name ++ " " ++ cons po ++ " = " ++ getAltRhs xx)
+
+ lookup_attrib nm [] = Nothing
+ lookup_attrib nm (a:as)
+ = if get_attrib_name a == nm then Just a else lookup_attrib nm as
+ in
+ case defv of
+ Nothing -> error ("gen_switch_from: " ++ attrib_name)
+ Just xx
+ -> unlines alts
+ ++ fn_name ++ " other = " ++ getAltRhs xx ++ "\n"
+
+------------------------------------------------------------------
+-- Create PrimOpInfo text from PrimOpSpecs -----------------------
+------------------------------------------------------------------
+
+
+gen_primop_info (Info defaults pos)
+ = unlines (map mkPOItext pos)
+
+mkPOItext i = mkPOI_LHS_text i ++ mkPOI_RHS_text i
+
+mkPOI_LHS_text i
+ = "primOpInfo " ++ cons i ++ " = "
+
+mkPOI_RHS_text i
+ = case cat i of
+ Compare
+ -> case ty i of
+ TyF t1 (TyF t2 td)
+ -> "mkCompare " ++ sl_name i ++ ppType t1
+ Monadic
+ -> case ty i of
+ TyF t1 td
+ -> "mkMonadic " ++ sl_name i ++ ppType t1
+ Dyadic
+ -> case ty i of
+ TyF t1 (TyF t2 td)
+ -> "mkDyadic " ++ sl_name i ++ ppType t1
+ GenPrimOp
+ -> let (argTys, resTy) = flatTys (ty i)
+ tvs = nub (tvsIn (ty i))
+ in
+ "mkGenPrimOp " ++ sl_name i ++ " "
+ ++ listify (map ppTyVar tvs) ++ " "
+ ++ listify (map ppType argTys) ++ " "
+ ++ "(" ++ ppType resTy ++ ")"
+
+sl_name i = "SLIT(\"" ++ name i ++ "\") "
+
+ppTyVar "a" = "alphaTyVar"
+ppTyVar "b" = "betaTyVar"
+ppTyVar "c" = "gammaTyVar"
+ppTyVar "s" = "deltaTyVar"
+ppTyVar "o" = "openAlphaTyVar"
+
+
+ppType (TyApp "Bool" []) = "boolTy"
+
+ppType (TyApp "Int#" []) = "intPrimTy"
+ppType (TyApp "Int64#" []) = "int64PrimTy"
+ppType (TyApp "Char#" []) = "charPrimTy"
+ppType (TyApp "Word#" []) = "wordPrimTy"
+ppType (TyApp "Word64#" []) = "word64PrimTy"
+ppType (TyApp "Addr#" []) = "addrPrimTy"
+ppType (TyApp "Float#" []) = "floatPrimTy"
+ppType (TyApp "Double#" []) = "doublePrimTy"
+ppType (TyApp "ByteArr#" []) = "byteArrayPrimTy"
+ppType (TyApp "RealWorld" []) = "realWorldTy"
+ppType (TyApp "ThreadId#" []) = "threadIdPrimTy"
+ppType (TyApp "ForeignObj#" []) = "foreignObjPrimTy"
+ppType (TyApp "BCO#" []) = "bcoPrimTy"
+ppType (TyApp "Unit" []) = "unitTy" -- dodgy
+
+
+ppType (TyVar "a") = "alphaTy"
+ppType (TyVar "b") = "betaTy"
+ppType (TyVar "c") = "gammaTy"
+ppType (TyVar "s") = "deltaTy"
+ppType (TyVar "o") = "openAlphaTy"
+ppType (TyApp "State#" [x]) = "mkStatePrimTy " ++ ppType x
+ppType (TyApp "MutVar#" [x,y]) = "mkMutVarPrimTy " ++ ppType x
+ ++ " " ++ ppType y
+ppType (TyApp "MutArr#" [x,y]) = "mkMutableArrayPrimTy " ++ ppType x
+ ++ " " ++ ppType y
+
+ppType (TyApp "MutByteArr#" [x]) = "mkMutableByteArrayPrimTy "
+ ++ ppType x
+
+ppType (TyApp "Array#" [x]) = "mkArrayPrimTy " ++ ppType x
+
+
+ppType (TyApp "Weak#" [x]) = "mkWeakPrimTy " ++ ppType x
+ppType (TyApp "StablePtr#" [x]) = "mkStablePtrPrimTy " ++ ppType x
+ppType (TyApp "StableName#" [x]) = "mkStableNamePrimTy " ++ ppType x
+
+ppType (TyApp "MVar#" [x,y]) = "mkMVarPrimTy " ++ ppType x
+ ++ " " ++ ppType y
+ppType (TyUTup ts) = "(mkTupleTy Unboxed " ++ show (length ts)
+ ++ " "
+ ++ listify (map ppType ts) ++ ")"
+
+ppType (TyF s d) = "(mkFunTy (" ++ ppType s ++ ") (" ++ ppType d ++ "))"
+
+ppType other
+ = error ("ppType: can't handle: " ++ show other ++ "\n")
+
+listify :: [String] -> String
+listify ss = "[" ++ concat (intersperse ", " ss) ++ "]"
+
+flatTys (TyF t1 t2) = case flatTys t2 of (ts,t) -> (t1:ts,t)
+flatTys other = ([],other)
+
+tvsIn (TyF t1 t2) = tvsIn t1 ++ tvsIn t2
+tvsIn (TyApp tc tys) = concatMap tvsIn tys
+tvsIn (TyVar tv) = [tv]
+tvsIn (TyUTup tys) = concatMap tvsIn tys
+
+
+------------------------------------------------------------------
+-- Abstract syntax -----------------------------------------------
+------------------------------------------------------------------
+
+-- info for all primops; the totality of the info in primops.txt
+data Info
+ = Info [Option] [PrimOpSpec] -- defaults, primops
+ deriving Show
+
+-- info for one primop
+data PrimOpSpec
+ = PrimOpSpec { cons :: String, -- PrimOp name
+ name :: String, -- name in prog text
+ ty :: Ty, -- type
+ cat :: Category, -- category
+ opts :: [Option] } -- default overrides
+ deriving Show
+
+-- a binding of property to value
+data Option
+ = OptionFalse String -- name = False
+ | OptionTrue String -- name = True
+ | OptionString String String -- name = { ... unparsed stuff ... }
+ deriving Show
+
+-- categorises primops
+data Category
+ = Dyadic | Monadic | Compare | GenPrimOp
+ deriving Show
+
+-- types
+data Ty
+ = TyF Ty Ty
+ | TyApp TyCon [Ty]
+ | TyVar TyVar
+ | TyUTup [Ty] -- unboxed tuples; just a TyCon really,
+ -- but convenient like this
+ deriving (Eq,Show)
+
+type TyVar = String
+type TyCon = String
+
+
+------------------------------------------------------------------
+-- Sanity checking -----------------------------------------------
+------------------------------------------------------------------
+
+{- Do some simple sanity checks:
+ * all the default field names are unique
+ * for each PrimOpSpec, all override field names are unique
+ * for each PrimOpSpec, all overriden field names
+ have a corresponding default value
+ * that primop types correspond in certain ways to the
+ Category: eg if Comparison, the type must be of the form
+ T -> T -> Bool.
+ Dies with "error" if there's a problem, else returns ().
+-}
+myseq () x = x
+myseqAll (():ys) x = myseqAll ys x
+myseqAll [] x = x
+
+sanityTop :: Info -> ()
+sanityTop (Info defs primops)
+ = let opt_names = map get_attrib_name defs
+ in
+ if length opt_names /= length (nub opt_names)
+ then error ("non-unique default attribute names: " ++ show opt_names ++ "\n")
+ else myseqAll (map (sanityPrimOp opt_names) primops) ()
+
+sanityPrimOp def_names p
+ = let p_names = map get_attrib_name (opts p)
+ p_names_ok
+ = length p_names == length (nub p_names)
+ && all (`elem` def_names) p_names
+ ty_ok = sane_ty (cat p) (ty p)
+ in
+ if not p_names_ok
+ then error ("attribute names are non-unique or have no default in\n" ++
+ "info for primop " ++ cons p ++ "\n")
+ else
+ if not ty_ok
+ then error ("type of primop " ++ cons p ++ " doesn't make sense w.r.t" ++
+ " category " ++ show (cat p) ++ "\n")
+ else ()
+
+sane_ty Compare (TyF t1 (TyF t2 td))
+ | t1 == t2 && td == TyApp "Bool" [] = True
+sane_ty Monadic (TyF t1 td)
+ | t1 == td = True
+sane_ty Dyadic (TyF t1 (TyF t2 td))
+ | t1 == t2 && t2 == t2 = True
+sane_ty GenPrimOp any_old_thing
+ = True
+sane_ty _ _
+ = False
+
+get_attrib_name (OptionFalse nm) = nm
+get_attrib_name (OptionTrue nm) = nm
+get_attrib_name (OptionString nm _) = nm
+
+------------------------------------------------------------------
+-- The parser ----------------------------------------------------
+------------------------------------------------------------------
+
+-- Due to lack of proper lexing facilities, a hack to zap any
+-- leading comments
+pTop :: Parser Info
+pTop = then4 (\_ ds ss _ -> Info ds ss)
+ pCommentAndWhitespace pDefaults (many pPrimOpSpec)
+ (lit "thats_all_folks")
+
+pDefaults :: Parser [Option]
+pDefaults = then2 sel22 (lit "defaults") (many pOption)
+
+pOption :: Parser Option
+pOption
+ = alts [
+ then3 (\nm eq ff -> OptionFalse nm) pName (lit "=") (lit "False"),
+ then3 (\nm eq tt -> OptionTrue nm) pName (lit "=") (lit "True"),
+ then3 (\nm eq zz -> OptionString nm zz)
+ pName (lit "=") pStuffBetweenBraces
+ ]
+
+pPrimOpSpec :: Parser PrimOpSpec
+pPrimOpSpec
+ = then6 (\_ c n k t o -> PrimOpSpec { cons = c, name = n, ty = t,
+ cat = k, opts = o } )
+ (lit "primop") pConstructor stringLiteral
+ pCategory pType pOptions
+
+pOptions :: Parser [Option]
+pOptions = optdef [] (then2 sel22 (lit "with") (many pOption))
+
+pCategory :: Parser Category
+pCategory
+ = alts [
+ apply (const Dyadic) (lit "Dyadic"),
+ apply (const Monadic) (lit "Monadic"),
+ apply (const Compare) (lit "Compare"),
+ apply (const GenPrimOp) (lit "GenPrimOp")
+ ]
+
+pStuffBetweenBraces
+ = lexeme (then3 sel23
+ (char '{') (many (satisfy (not . (== '}'))))
+ (char '}'))
+
+-------------------
+-- Parsing types --
+-------------------
+
+pType :: Parser Ty
+pType = then2 (\t maybe_tt -> case maybe_tt of
+ Just tt -> TyF t tt
+ Nothing -> t)
+ paT
+ (opt (then2 sel22 (lit "->") pType))
+
+-- Atomic types
+paT = alts [ then2 TyApp pTycon (many ppT),
+ pUnboxedTupleTy,
+ then3 sel23 (lit "(") pType (lit ")"),
+ ppT
+ ]
+
+-- the magic bit in the middle is: T (,T)* so to speak
+pUnboxedTupleTy
+ = then3 (\ _ ts _ -> TyUTup ts)
+ (lit "(#")
+ (then2 (:) pType (many (then2 sel22 (lit ",") pType)))
+ (lit "#)")
+
+-- Primitive types
+ppT = alts [apply TyVar pTyvar,
+ apply (\tc -> TyApp tc []) pTycon
+ ]
+
+pTyvar = sat (`notElem` ["primop","with"]) pName
+pTycon = pConstructor
+pName = lexeme (then2 (:) lower (many isIdChar))
+pConstructor = lexeme (then2 (:) upper (many isIdChar))
+
+isIdChar = satisfy (`elem` idChars)
+idChars = ['a' .. 'z'] ++ ['A' .. 'Z'] ++ ['0' .. '9'] ++ "#_"
+
+sat pred p
+ = do x <- try p
+ if pred x
+ then return x
+ else pzero
+
+------------------------------------------------------------------
+-- Helpful additions to Daan's parser stuff ----------------------
+------------------------------------------------------------------
+
+alts [p1] = try p1
+alts (p1:p2:ps) = (try p1) <|> alts (p2:ps)
+
+then2 f p1 p2
+ = do x1 <- p1 ; x2 <- p2 ; return (f x1 x2)
+then3 f p1 p2 p3
+ = do x1 <- p1 ; x2 <- p2 ; x3 <- p3 ; return (f x1 x2 x3)
+then4 f p1 p2 p3 p4
+ = do x1 <- p1 ; x2 <- p2 ; x3 <- p3 ; x4 <- p4 ; return (f x1 x2 x3 x4)
+then5 f p1 p2 p3 p4 p5
+ = do x1 <- p1 ; x2 <- p2 ; x3 <- p3 ; x4 <- p4 ; x5 <- p5
+ return (f x1 x2 x3 x4 x5)
+then6 f p1 p2 p3 p4 p5 p6
+ = do x1 <- p1 ; x2 <- p2 ; x3 <- p3 ; x4 <- p4 ; x5 <- p5 ; x6 <- p6
+ return (f x1 x2 x3 x4 x5 x6)
+opt p
+ = (do x <- p; return (Just x)) <|> return Nothing
+optdef d p
+ = (do x <- p; return x) <|> return d
+
+sel12 a b = a
+sel22 a b = b
+sel23 a b c = b
+apply = liftM
+
+-- Hacks for zapping whitespace and comments, unfortunately needed
+-- because Daan won't let us have a lexer before the parser :-(
+lexeme :: Parser p -> Parser p
+lexeme p = then2 sel12 p pCommentAndWhitespace
+
+lit :: String -> Parser ()
+lit s = apply (const ()) (lexeme (string s))
+
+pCommentAndWhitespace :: Parser ()
+pCommentAndWhitespace
+ = apply (const ()) (many (alts [pLineComment,
+ apply (const ()) (satisfy isSpace)]))
+ <|>
+ return ()
+
+pLineComment :: Parser ()
+pLineComment
+ = try (then3 (\_ _ _ -> ()) (string "--") (many (satisfy (/= '\n'))) (char '\n'))
+
+stringLiteral :: Parser String
+stringLiteral = lexeme (
+ do { between (char '"')
+ (char '"' <?> "end of string")
+ (many (noneOf "\""))
+ }
+ <?> "literal string")
+
+
+
+------------------------------------------------------------------
+-- end --
+------------------------------------------------------------------
+
+
+