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|
{-# OPTIONS -cpp #-}
------------------------------------------------------------------
-- A primop-table mangling program --
------------------------------------------------------------------
module Main where
import Parser
import Syntax
import Char
import List
import System ( getArgs )
import Maybe ( catMaybes )
main :: IO ()
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
case parse s of
Left err -> error ("parse error at " ++ (show err))
Right p_o_specs@(Info _ entries)
-> seq (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)
"--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)
"--make-haskell-wrappers"
-> putStr (gen_wrappers p_o_specs)
"--make-haskell-source"
-> putStr (gen_hs_source p_o_specs)
"--make-ext-core-source"
-> putStr (gen_ext_core_source entries)
"--make-latex-doc"
-> putStr (gen_latex_doc p_o_specs)
_ -> error "Should not happen, known_args out of sync?"
)
known_args :: [String]
known_args
= [ "--data-decl",
"--has-side-effects",
"--out-of-line",
"--commutable",
"--needs-wrapper",
"--can-fail",
"--strictness",
"--primop-primop-info",
"--primop-tag",
"--primop-list",
"--make-haskell-wrappers",
"--make-haskell-source",
"--make-ext-core-source",
"--make-latex-doc"
]
------------------------------------------------------------------
-- Code generators -----------------------------------------------
------------------------------------------------------------------
gen_hs_source :: Info -> String
gen_hs_source (Info defaults entries) =
"{-\n"
++ "This is a generated file (generated by genprimopcode).\n"
++ "It is not code to actually be used. Its only purpose is to be\n"
++ "consumed by haddock.\n"
++ "-}\n"
++ "\n"
++ "-----------------------------------------------------------------------------\n"
++ "-- |\n"
++ "-- Module : GHC.Prim\n"
++ "-- \n"
++ "-- Maintainer : cvs-ghc@haskell.org\n"
++ "-- Stability : internal\n"
++ "-- Portability : non-portable (GHC extensions)\n"
++ "--\n"
++ "-- GHC\'s primitive types and operations.\n"
++ "-- Use GHC.Exts from the base package instead of importing this\n"
++ "-- module directly.\n"
++ "--\n"
++ "-----------------------------------------------------------------------------\n"
++ "module GHC.Prim (\n"
++ unlines (map (("\t" ++) . hdr) entries)
++ ") where\n"
++ "\n"
++ "import GHC.Bool\n"
++ "\n"
++ "{-\n"
++ unlines (map opt defaults)
++ "-}\n"
++ unlines (concatMap ent entries) ++ "\n\n\n"
where opt (OptionFalse n) = n ++ " = False"
opt (OptionTrue n) = n ++ " = True"
opt (OptionString n v) = n ++ " = { " ++ v ++ "}"
hdr s@(Section {}) = sec s
hdr (PrimOpSpec { name = n }) = wrapOp n ++ ","
hdr (PseudoOpSpec { name = n }) = wrapOp n ++ ","
hdr (PrimTypeSpec { ty = TyApp n _ }) = wrapTy n ++ ","
hdr (PrimTypeSpec {}) = error "Illegal type spec"
ent (Section {}) = []
ent o@(PrimOpSpec {}) = spec o
ent o@(PrimTypeSpec {}) = spec o
ent o@(PseudoOpSpec {}) = spec o
sec s = "\n-- * " ++ escape (title s) ++ "\n"
++ (unlines $ map ("-- " ++ ) $ lines $ unlatex $ escape $ "|" ++ desc s) ++ "\n"
spec o = comm : decls
where decls = case o of
PrimOpSpec { name = n, ty = t } ->
[ wrapOp n ++ " :: " ++ pprTy t,
wrapOp n ++ " = let x = x in x" ]
PseudoOpSpec { name = n, ty = t } ->
[ wrapOp n ++ " :: " ++ pprTy t,
wrapOp n ++ " = let x = x in x" ]
PrimTypeSpec { ty = t } ->
[ "data " ++ pprTy t ]
Section { } -> []
comm = case (desc o) of
[] -> ""
d -> "\n" ++ (unlines $ map ("-- " ++ ) $ lines $ unlatex $ escape $ "|" ++ d)
wrapOp nm | isAlpha (head nm) = nm
| otherwise = "(" ++ nm ++ ")"
wrapTy nm | isAlpha (head nm) = nm
| otherwise = "(" ++ nm ++ ")"
unlatex s = case s of
'\\':'t':'e':'x':'t':'t':'t':'{':cs -> markup "@" "@" cs
'{':'\\':'t':'t':cs -> markup "@" "@" cs
'{':'\\':'i':'t':cs -> markup "/" "/" cs
c : cs -> c : unlatex cs
[] -> []
markup s t xs = s ++ mk (dropWhile isSpace xs)
where mk "" = t
mk ('\n':cs) = ' ' : mk cs
mk ('}':cs) = t ++ unlatex cs
mk (c:cs) = c : mk cs
escape = concatMap (\c -> if c `elem` special then '\\':c:[] else c:[])
where special = "/'`\"@<"
pprTy :: Ty -> String
pprTy = pty
where
pty (TyF t1 t2) = pbty t1 ++ " -> " ++ pty t2
pty t = pbty t
pbty (TyApp tc ts) = tc ++ concat (map (' ' :) (map paty ts))
pbty (TyUTup ts) = "(# "
++ concat (intersperse "," (map pty ts))
++ " #)"
pbty t = paty t
paty (TyVar tv) = tv
paty t = "(" ++ pty t ++ ")"
--
-- Generates the type environment that the stand-alone External Core tools use.
gen_ext_core_source :: [Entry] -> String
gen_ext_core_source entries =
"-----------------------------------------------------------------------\n"
++ "-- This module is automatically generated by the GHC utility\n"
++ "-- \"genprimopcode\". Do not edit!\n"
++ "-----------------------------------------------------------------------\n"
++ "module Language.Core.PrimEnv(primTcs, primVals, intLitTypes, ratLitTypes,"
++ "\n charLitTypes, stringLitTypes) where\nimport Language.Core.Core"
++ "\nimport Language.Core.Encoding\n\n"
++ "primTcs :: [(Tcon, Kind)]\n"
++ "primTcs = [\n"
++ printList tcEnt entries
++ " ]\n"
++ "primVals :: [(Var, Ty)]\n"
++ "primVals = [\n"
++ printList valEnt entries
++ "]\n"
++ "intLitTypes :: [Ty]\n"
++ "intLitTypes = [\n"
++ printList tyEnt (intLitTys entries)
++ "]\n"
++ "ratLitTypes :: [Ty]\n"
++ "ratLitTypes = [\n"
++ printList tyEnt (ratLitTys entries)
++ "]\n"
++ "charLitTypes :: [Ty]\n"
++ "charLitTypes = [\n"
++ printList tyEnt (charLitTys entries)
++ "]\n"
++ "stringLitTypes :: [Ty]\n"
++ "stringLitTypes = [\n"
++ printList tyEnt (stringLitTys entries)
++ "]\n\n"
where printList f = concat . intersperse ",\n" . filter (not . null) . map f
tcEnt (PrimTypeSpec {ty=t}) =
case t of
TyApp tc args -> parens tc (tcKind tc args)
_ -> error ("tcEnt: type in PrimTypeSpec is not a type"
++ " constructor: " ++ show t)
tcEnt _ = ""
-- hack alert!
-- The primops.txt.pp format doesn't have enough information in it to
-- print out some of the information that ext-core needs (like kinds,
-- and later on in this code, module names) so we special-case. An
-- alternative would be to refer to things indirectly and hard-wire
-- certain things (e.g., the kind of the Any constructor, here) into
-- ext-core's Prims module again.
tcKind "Any" _ = "Klifted"
tcKind tc [] | last tc == '#' = "Kunlifted"
tcKind _ [] | otherwise = "Klifted"
-- assumes that all type arguments are lifted (are they?)
tcKind tc (_v:as) = "(Karrow Klifted " ++ tcKind tc as
++ ")"
valEnt (PseudoOpSpec {name=n, ty=t}) = valEntry n t
valEnt (PrimOpSpec {name=n, ty=t}) = valEntry n t
valEnt _ = ""
valEntry name' ty' = parens name' (mkForallTy (freeTvars ty') (pty ty'))
where pty (TyF t1 t2) = mkFunTy (pty t1) (pty t2)
pty (TyApp tc ts) = mkTconApp (mkTcon tc) (map pty ts)
pty (TyUTup ts) = mkUtupleTy (map pty ts)
pty (TyVar tv) = paren $ "Tvar \"" ++ tv ++ "\""
mkFunTy s1 s2 = "Tapp " ++ (paren ("Tapp (Tcon tcArrow)"
++ " " ++ paren s1))
++ " " ++ paren s2
mkTconApp tc args = foldl tapp tc args
mkTcon tc = paren $ "Tcon " ++ paren (qualify True tc)
mkUtupleTy args = foldl tapp (tcUTuple (length args)) args
mkForallTy [] t = t
mkForallTy vs t = foldr
(\ v s -> "Tforall " ++
(paren (quote v ++ ", " ++ vKind v)) ++ " "
++ paren s) t vs
-- hack alert!
vKind "o" = "Kopen"
vKind _ = "Klifted"
freeTvars (TyF t1 t2) = freeTvars t1 `union` freeTvars t2
freeTvars (TyApp _ tys) = freeTvarss tys
freeTvars (TyVar v) = [v]
freeTvars (TyUTup tys) = freeTvarss tys
freeTvarss = nub . concatMap freeTvars
tapp s nextArg = paren $ "Tapp " ++ s ++ " " ++ paren nextArg
tcUTuple n = paren $ "Tcon " ++ paren (qualify False $ "Z"
++ show n ++ "H")
tyEnt (PrimTypeSpec {ty=(TyApp tc _args)}) = " " ++ paren ("Tcon " ++
(paren (qualify True tc)))
tyEnt _ = ""
-- more hacks. might be better to do this on the ext-core side,
-- as per earlier comment
qualify _ tc | tc == "Bool" = "Just boolMname" ++ ", "
++ ze True tc
qualify _ tc | tc == "()" = "Just baseMname" ++ ", "
++ ze True tc
qualify enc tc = "Just primMname" ++ ", " ++ (ze enc tc)
ze enc tc = (if enc then "zEncodeString " else "")
++ "\"" ++ tc ++ "\""
intLitTys = prefixes ["Int", "Word", "Addr", "Char"]
ratLitTys = prefixes ["Float", "Double"]
charLitTys = prefixes ["Char"]
stringLitTys = prefixes ["Addr"]
prefixes ps = filter (\ t ->
case t of
(PrimTypeSpec {ty=(TyApp tc _args)}) ->
any (\ p -> p `isPrefixOf` tc) ps
_ -> False)
parens n ty' = " (zEncodeString \"" ++ n ++ "\", " ++ ty' ++ ")"
paren s = "(" ++ s ++ ")"
quote s = "\"" ++ s ++ "\""
gen_latex_doc :: Info -> String
gen_latex_doc (Info defaults entries)
= "\\primopdefaults{"
++ mk_options defaults
++ "}\n"
++ (concat (map mk_entry entries))
where mk_entry (PrimOpSpec {cons=constr,name=n,ty=t,cat=c,desc=d,opts=o}) =
"\\primopdesc{"
++ latex_encode constr ++ "}{"
++ latex_encode n ++ "}{"
++ latex_encode (zencode n) ++ "}{"
++ latex_encode (show c) ++ "}{"
++ latex_encode (mk_source_ty t) ++ "}{"
++ latex_encode (mk_core_ty t) ++ "}{"
++ d ++ "}{"
++ mk_options o
++ "}\n"
mk_entry (Section {title=ti,desc=d}) =
"\\primopsection{"
++ latex_encode ti ++ "}{"
++ d ++ "}\n"
mk_entry (PrimTypeSpec {ty=t,desc=d,opts=o}) =
"\\primtypespec{"
++ latex_encode (mk_source_ty t) ++ "}{"
++ latex_encode (mk_core_ty t) ++ "}{"
++ d ++ "}{"
++ mk_options o
++ "}\n"
mk_entry (PseudoOpSpec {name=n,ty=t,desc=d,opts=o}) =
"\\pseudoopspec{"
++ latex_encode (zencode n) ++ "}{"
++ latex_encode (mk_source_ty t) ++ "}{"
++ latex_encode (mk_core_ty t) ++ "}{"
++ d ++ "}{"
++ mk_options o
++ "}\n"
mk_source_ty typ = pty typ
where pty (TyF t1 t2) = pbty t1 ++ " -> " ++ pty t2
pty t = pbty t
pbty (TyApp tc ts) = tc ++ (concat (map (' ':) (map paty ts)))
pbty (TyUTup ts) = "(# " ++ (concat (intersperse "," (map pty ts))) ++ " #)"
pbty t = paty t
paty (TyVar tv) = tv
paty t = "(" ++ pty t ++ ")"
mk_core_ty typ = foralls ++ (pty typ)
where pty (TyF t1 t2) = pbty t1 ++ " -> " ++ pty t2
pty t = pbty t
pbty (TyApp tc ts) = (zencode tc) ++ (concat (map (' ':) (map paty ts)))
pbty (TyUTup ts) = (zencode (utuplenm (length ts))) ++ (concat ((map (' ':) (map paty ts))))
pbty t = paty t
paty (TyVar tv) = zencode tv
paty (TyApp tc []) = zencode tc
paty t = "(" ++ pty t ++ ")"
utuplenm 1 = "(# #)"
utuplenm n = "(#" ++ (replicate (n-1) ',') ++ "#)"
foralls = if tvars == [] then "" else "%forall " ++ (tbinds tvars)
tvars = tvars_of typ
tbinds [] = ". "
tbinds ("o":tbs) = "(o::?) " ++ (tbinds tbs)
tbinds (tv:tbs) = tv ++ " " ++ (tbinds tbs)
tvars_of (TyF t1 t2) = tvars_of t1 `union` tvars_of t2
tvars_of (TyApp _ ts) = foldl union [] (map tvars_of ts)
tvars_of (TyUTup ts) = foldr union [] (map tvars_of ts)
tvars_of (TyVar tv) = [tv]
mk_options o =
"\\primoptions{"
++ mk_has_side_effects o ++ "}{"
++ mk_out_of_line o ++ "}{"
++ mk_commutable o ++ "}{"
++ mk_needs_wrapper o ++ "}{"
++ mk_can_fail o ++ "}{"
++ latex_encode (mk_strictness o) ++ "}{"
++ "}"
mk_has_side_effects o = mk_bool_opt o "has_side_effects" "Has side effects." "Has no side effects."
mk_out_of_line o = mk_bool_opt o "out_of_line" "Implemented out of line." "Implemented in line."
mk_commutable o = mk_bool_opt o "commutable" "Commutable." "Not commutable."
mk_needs_wrapper o = mk_bool_opt o "needs_wrapper" "Needs wrapper." "Needs no wrapper."
mk_can_fail o = mk_bool_opt o "can_fail" "Can fail." "Cannot fail."
mk_bool_opt o opt_name if_true if_false =
case lookup_attrib opt_name o of
Just (OptionTrue _) -> if_true
Just (OptionFalse _) -> if_false
Just (OptionString _ _) -> error "String value for boolean option"
Nothing -> ""
mk_strictness o =
case lookup_attrib "strictness" o of
Just (OptionString _ s) -> s -- for now
Just _ -> error "Boolean value for strictness"
Nothing -> ""
zencode xs =
case maybe_tuple xs of
Just n -> n -- Tuples go to Z2T etc
Nothing -> concat (map encode_ch xs)
where
maybe_tuple "(# #)" = Just("Z1H")
maybe_tuple ('(' : '#' : cs) = case count_commas (0::Int) cs of
(n, '#' : ')' : _) -> Just ('Z' : shows (n+1) "H")
_ -> Nothing
maybe_tuple "()" = Just("Z0T")
maybe_tuple ('(' : cs) = case count_commas (0::Int) cs of
(n, ')' : _) -> Just ('Z' : shows (n+1) "T")
_ -> Nothing
maybe_tuple _ = Nothing
count_commas :: Int -> String -> (Int, String)
count_commas n (',' : cs) = count_commas (n+1) cs
count_commas n cs = (n,cs)
unencodedChar :: Char -> Bool -- True for chars that don't need encoding
unencodedChar 'Z' = False
unencodedChar 'z' = False
unencodedChar c = isAlphaNum c
encode_ch :: Char -> String
encode_ch c | unencodedChar c = [c] -- Common case first
-- Constructors
encode_ch '(' = "ZL" -- Needed for things like (,), and (->)
encode_ch ')' = "ZR" -- For symmetry with (
encode_ch '[' = "ZM"
encode_ch ']' = "ZN"
encode_ch ':' = "ZC"
encode_ch 'Z' = "ZZ"
-- Variables
encode_ch 'z' = "zz"
encode_ch '&' = "za"
encode_ch '|' = "zb"
encode_ch '^' = "zc"
encode_ch '$' = "zd"
encode_ch '=' = "ze"
encode_ch '>' = "zg"
encode_ch '#' = "zh"
encode_ch '.' = "zi"
encode_ch '<' = "zl"
encode_ch '-' = "zm"
encode_ch '!' = "zn"
encode_ch '+' = "zp"
encode_ch '\'' = "zq"
encode_ch '\\' = "zr"
encode_ch '/' = "zs"
encode_ch '*' = "zt"
encode_ch '_' = "zu"
encode_ch '%' = "zv"
encode_ch c = 'z' : shows (ord c) "U"
latex_encode [] = []
latex_encode (c:cs) | c `elem` "#$%&_^{}" = "\\" ++ c:(latex_encode cs)
latex_encode ('~':cs) = "\\verb!~!" ++ (latex_encode cs)
latex_encode ('\\':cs) = "$\\backslash$" ++ (latex_encode cs)
latex_encode (c:cs) = c:(latex_encode cs)
gen_wrappers :: Info -> String
gen_wrappers (Info _ entries)
= "{-# LANGUAGE NoImplicitPrelude, UnboxedTuples #-}\n"
-- Dependencies on Prelude must be explicit in libraries/base, but we
-- don't need the Prelude here so we add NoImplicitPrelude.
++ "module GHC.PrimopWrappers where\n"
++ "import qualified GHC.Prim\n"
++ "import GHC.Bool (Bool)\n"
++ "import GHC.Unit ()\n"
++ "import GHC.Prim (" ++ types ++ ")\n"
++ unlines (concatMap f specs)
where
specs = filter (not.dodgy) (filter is_primop entries)
tycons = foldr union [] $ map (tyconsIn . ty) specs
tycons' = filter (`notElem` ["()", "Bool"]) tycons
types = concat $ intersperse ", " tycons'
f spec = let args = map (\n -> "a" ++ show n) [1 .. arity (ty spec)]
src_name = wrap (name spec)
lhs = src_name ++ " " ++ unwords args
rhs = "(GHC.Prim." ++ name spec ++ ") " ++ unwords args
in ["{-# NOINLINE " ++ src_name ++ " #-}",
src_name ++ " :: " ++ pprTy (ty spec),
lhs ++ " = " ++ rhs]
wrap nm | isLower (head nm) = nm
| otherwise = "(" ++ nm ++ ")"
dodgy spec
= name spec `elem`
[-- C code generator can't handle these
"seq#",
"tagToEnum#",
-- not interested in parallel support
"par#", "parGlobal#", "parLocal#", "parAt#",
"parAtAbs#", "parAtRel#", "parAtForNow#"
]
gen_primop_list :: Info -> String
gen_primop_list (Info _ entries)
= unlines (
[ " [" ++ cons first ]
++
map (\p -> " , " ++ cons p) rest
++
[ " ]" ]
) where (first:rest) = filter is_primop entries
gen_primop_tag :: Info -> String
gen_primop_tag (Info _ entries)
= unlines (max_def_type : max_def :
tagOf_type : zipWith f primop_entries [1 :: Int ..])
where
primop_entries = filter is_primop entries
tagOf_type = "tagOf_PrimOp :: PrimOp -> FastInt"
f i n = "tagOf_PrimOp " ++ cons i ++ " = _ILIT(" ++ show n ++ ")"
max_def_type = "maxPrimOpTag :: Int"
max_def = "maxPrimOpTag = " ++ show (length primop_entries)
gen_data_decl :: Info -> String
gen_data_decl (Info _ entries)
= let conss = map cons (filter is_primop entries)
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 entries)
= let defv = lookup_attrib attrib_name defaults
alternatives = catMaybes (map mkAlt (filter is_primop entries))
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)
in
case defv of
Nothing -> error ("gen_switch_from: " ++ attrib_name)
Just xx
-> unlines alternatives
++ fn_name ++ " _ = " ++ getAltRhs xx ++ "\n"
------------------------------------------------------------------
-- Create PrimOpInfo text from PrimOpSpecs -----------------------
------------------------------------------------------------------
gen_primop_info :: Info -> String
gen_primop_info (Info _ entries)
= unlines (map mkPOItext (filter is_primop entries))
mkPOItext :: Entry -> String
mkPOItext i = mkPOI_LHS_text i ++ mkPOI_RHS_text i
mkPOI_LHS_text :: Entry -> String
mkPOI_LHS_text i
= "primOpInfo " ++ cons i ++ " = "
mkPOI_RHS_text :: Entry -> String
mkPOI_RHS_text i
= case cat i of
Compare
-> case ty i of
TyF t1 (TyF _ _)
-> "mkCompare " ++ sl_name i ++ ppType t1
_ -> error "Type error in comparison op"
Monadic
-> case ty i of
TyF t1 _
-> "mkMonadic " ++ sl_name i ++ ppType t1
_ -> error "Type error in monadic op"
Dyadic
-> case ty i of
TyF t1 (TyF _ _)
-> "mkDyadic " ++ sl_name i ++ ppType t1
_ -> error "Type error in dyadic op"
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 :: Entry -> String
sl_name i = "(fsLit \"" ++ name i ++ "\") "
ppTyVar :: String -> String
ppTyVar "a" = "alphaTyVar"
ppTyVar "b" = "betaTyVar"
ppTyVar "c" = "gammaTyVar"
ppTyVar "s" = "deltaTyVar"
ppTyVar "o" = "openAlphaTyVar"
ppTyVar _ = error "Unknown type var"
ppType :: Ty -> String
ppType (TyApp "Bool" []) = "boolTy"
ppType (TyApp "Int#" []) = "intPrimTy"
ppType (TyApp "Int32#" []) = "int32PrimTy"
ppType (TyApp "Int64#" []) = "int64PrimTy"
ppType (TyApp "Char#" []) = "charPrimTy"
ppType (TyApp "Word#" []) = "wordPrimTy"
ppType (TyApp "Word32#" []) = "word32PrimTy"
ppType (TyApp "Word64#" []) = "word64PrimTy"
ppType (TyApp "Addr#" []) = "addrPrimTy"
ppType (TyApp "Float#" []) = "floatPrimTy"
ppType (TyApp "Double#" []) = "doublePrimTy"
ppType (TyApp "ByteArray#" []) = "byteArrayPrimTy"
ppType (TyApp "RealWorld" []) = "realWorldTy"
ppType (TyApp "ThreadId#" []) = "threadIdPrimTy"
ppType (TyApp "ForeignObj#" []) = "foreignObjPrimTy"
ppType (TyApp "BCO#" []) = "bcoPrimTy"
ppType (TyApp "()" []) = "unitTy" -- unitTy is TysWiredIn's name for ()
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 "MutableArray#" [x,y]) = "mkMutableArrayPrimTy " ++ ppType x
++ " " ++ ppType y
ppType (TyApp "MutableByteArray#" [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 (TyApp "TVar#" [x,y]) = "mkTVarPrimTy " ++ ppType x
++ " " ++ ppType y
ppType (TyUTup ts) = "(mkTupleTy Unboxed "
++ 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 :: Ty -> ([Ty],Ty)
flatTys (TyF t1 t2) = case flatTys t2 of (ts,t) -> (t1:ts,t)
flatTys other = ([],other)
tvsIn :: Ty -> [TyVar]
tvsIn (TyF t1 t2) = tvsIn t1 ++ tvsIn t2
tvsIn (TyApp _ tys) = concatMap tvsIn tys
tvsIn (TyVar tv) = [tv]
tvsIn (TyUTup tys) = concatMap tvsIn tys
tyconsIn :: Ty -> [TyCon]
tyconsIn (TyF t1 t2) = tyconsIn t1 `union` tyconsIn t2
tyconsIn (TyApp tc tys) = foldr union [tc] $ map tyconsIn tys
tyconsIn (TyVar _) = []
tyconsIn (TyUTup tys) = foldr union [] $ map tyconsIn tys
arity :: Ty -> Int
arity = length . fst . flatTys
|