%
% (c) The University of Glasgow 2001-2006
%
\begin{code}
module PprExternalCore () where
import Encoding
import ExternalCore
import Pretty
import Data.Char
import Data.Ratio
instance Show Module where
showsPrec _ m = shows (pmodule m)
instance Show Tdef where
showsPrec _ t = shows (ptdef t)
instance Show Cdef where
showsPrec _ c = shows (pcdef c)
instance Show Vdefg where
showsPrec _ v = shows (pvdefg v)
instance Show Exp where
showsPrec _ e = shows (pexp e)
instance Show Alt where
showsPrec _ a = shows (palt a)
instance Show Ty where
showsPrec _ t = shows (pty t)
instance Show Kind where
showsPrec _ k = shows (pkind k)
instance Show Lit where
showsPrec _ l = shows (plit l)
indent :: Doc -> Doc
indent = nest 2
pmodule :: Module -> Doc
pmodule (Module mname tdefs vdefgs) =
(text "%module" <+> text mname)
$$ indent ((vcat (map ((<> char ';') . ptdef) tdefs))
$$ (vcat (map ((<> char ';') . pvdefg) vdefgs)))
ptdef :: Tdef -> Doc
ptdef (Data tcon tbinds cdefs) =
(text "%data" <+> pqname tcon <+> (hsep (map ptbind tbinds)) <+> char '=')
$$ indent (braces ((vcat (punctuate (char ';') (map pcdef cdefs)))))
ptdef (Newtype tcon coercion tbinds rep) =
text "%newtype" <+> pqname tcon <+> pqname coercion
<+> (hsep (map ptbind tbinds)) $$ indent repclause
where repclause = char '=' <+> pty rep
pcdef :: Cdef -> Doc
pcdef (Constr dcon tbinds tys) =
(pqname dcon) <+> (sep [hsep (map pattbind tbinds),sep (map paty tys)])
pcdef (GadtConstr dcon ty) =
(pqname dcon) <+> text "::" <+> pty ty
pname :: Id -> Doc
pname id = text (zEncodeString id)
pqname :: Qual Id -> Doc
pqname ("",id) = pname id
pqname (m,id) = text m <> char '.' <> pname id
ptbind, pattbind :: Tbind -> Doc
ptbind (t,Klifted) = pname t
ptbind (t,k) = parens (pname t <> text "::" <> pkind k)
pattbind (t,k) = char '@' <> ptbind (t,k)
pakind, pkind :: Kind -> Doc
pakind (Klifted) = char '*'
pakind (Kunlifted) = char '#'
pakind (Kopen) = char '?'
pakind k = parens (pkind k)
pkind (Karrow k1 k2) = parens (pakind k1 <> text "->" <> pkind k2)
pkind k = pakind k
paty, pbty, pty :: Ty -> Doc
paty (Tvar n) = pname n
paty (Tcon c) = pqname c
paty t = parens (pty t)
pbty (Tapp(Tapp(Tcon tc) t1) t2) | tc == tcArrow = parens(fsep [pbty t1, text "->",pty t2])
pbty t = paty t
pty (Tapp(Tapp(Tcon tc) t1) t2) | tc == tcArrow = fsep [pbty t1, text "->",pty t2]
pty (Tforall tb t) = text "%forall" <+> pforall [tb] t
pty ty@(Tapp {}) = pappty ty []
pty ty@(Tvar {}) = paty ty
pty ty@(Tcon {}) = paty ty
pappty :: Ty -> [Ty] -> Doc
pappty (Tapp t1 t2) ts = pappty t1 (t2:ts)
pappty t ts = sep (map paty (t:ts))
pforall :: [Tbind] -> Ty -> Doc
pforall tbs (Tforall tb t) = pforall (tbs ++ [tb]) t
pforall tbs t = hsep (map ptbind tbs) <+> char '.' <+> pty t
paco, pbco, pco :: Coercion -> Doc
paco (ReflCoercion r ty) = char '<' <> pty ty <> text ">_" <> prole r
paco (TyConAppCoercion r qtc []) = pqname qtc <> char '_' <> prole r
paco (AxiomCoercion qtc i []) = pqname qtc <> char '[' <> int i <> char ']'
paco (CoVarCoercion cv) = pname cv
paco c = parens (pco c)
pbco (TyConAppCoercion _ arr [co1, co2])
| arr == tcArrow
= parens (fsep [pbco co1, text "->", pco co2])
pbco co = paco co
pco c@(ReflCoercion {}) = paco c
pco (SymCoercion co) = sep [text "%sub", paco co]
pco (TransCoercion co1 co2) = sep [text "%trans", paco co1, paco co2]
pco (TyConAppCoercion _ arr [co1, co2])
| arr == tcArrow = fsep [pbco co1, text "->", pco co2]
pco (TyConAppCoercion r qtc cos) = parens (pqname qtc <+> sep (map paco cos)) <> char '_' <> prole r
pco co@(AppCoercion {}) = pappco co []
pco (ForAllCoercion tb co) = text "%forall" <+> pforallco [tb] co
pco co@(CoVarCoercion {}) = paco co
pco (UnivCoercion r ty1 ty2) = sep [text "%univ", prole r, paty ty1, paty ty2]
pco (InstCoercion co ty) = sep [text "%inst", paco co, paty ty]
pco (NthCoercion i co) = sep [text "%nth", int i, paco co]
pco (AxiomCoercion qtc i cos) = pqname qtc <> char '[' <> int i <> char ']' <+> sep (map paco cos)
pco (LRCoercion CLeft co) = sep [text "%left", paco co]
pco (LRCoercion CRight co) = sep [text "%right", paco co]
pco (SubCoercion co) = sep [text "%sub", paco co]
pappco :: Coercion -> [Coercion ] -> Doc
pappco (AppCoercion co1 co2) cos = pappco co1 (co2:cos)
pappco co cos = sep (map paco (co:cos))
pforallco :: [Tbind] -> Coercion -> Doc
pforallco tbs (ForAllCoercion tb co) = pforallco (tbs ++ [tb]) co
pforallco tbs co = hsep (map ptbind tbs) <+> char '.' <+> pco co
prole :: Role -> Doc
prole Nominal = char 'N'
prole Representational = char 'R'
prole Phantom = char 'P'
pvdefg :: Vdefg -> Doc
pvdefg (Rec vdefs) = text "%rec" $$ braces (indent (vcat (punctuate (char ';') (map pvdef vdefs))))
pvdefg (Nonrec vdef) = pvdef vdef
pvdef :: Vdef -> Doc
pvdef (_l,v,t,e) = sep [(pqname v <+> text "::" <+> pty t <+> char '='),
indent (pexp e)]
paexp, pfexp, pexp :: Exp -> Doc
paexp (Var x) = pqname x
paexp (Dcon x) = pqname x
paexp (Lit l) = plit l
paexp e = parens(pexp e)
plamexp :: [Bind] -> Exp -> Doc
plamexp bs (Lam b e) = plamexp (bs ++ [b]) e
plamexp bs e = sep [sep (map pbind bs) <+> text "->",
indent (pexp e)]
pbind :: Bind -> Doc
pbind (Tb tb) = char '@' <+> ptbind tb
pbind (Vb vb) = pvbind vb
pfexp (App e1 e2) = pappexp e1 [Left e2]
pfexp (Appt e t) = pappexp e [Right t]
pfexp e = paexp e
pappexp :: Exp -> [Either Exp Ty] -> Doc
pappexp (App e1 e2) as = pappexp e1 (Left e2:as)
pappexp (Appt e t) as = pappexp e (Right t:as)
pappexp e as = fsep (paexp e : map pa as)
where pa (Left e) = paexp e
pa (Right t) = char '@' <+> paty t
pexp (Lam b e) = char '\\' <+> plamexp [b] e
pexp (Let vd e) = (text "%let" <+> pvdefg vd) $$ (text "%in" <+> pexp e)
pexp (Case e vb ty alts) = sep [text "%case" <+> paty ty <+> paexp e,
text "%of" <+> pvbind vb]
$$ (indent (braces (vcat (punctuate (char ';') (map palt alts)))))
pexp (Cast e co) = (text "%cast" <+> parens (pexp e)) $$ paco co
pexp (Tick s e) = (text "%source" <+> pstring s) $$ pexp e
pexp (External n cc t) = (text "%external" <+> text cc <+> pstring n) $$ paty t
pexp (DynExternal cc t) = (text "%dynexternal" <+> text cc) $$ paty t
pexp (Label n) = (text "%label" <+> pstring n)
pexp e = pfexp e
pvbind :: Vbind -> Doc
pvbind (x,t) = parens(pname x <> text "::" <> pty t)
palt :: Alt -> Doc
palt (Acon c tbs vbs e) =
sep [pqname c,
sep (map pattbind tbs),
sep (map pvbind vbs) <+> text "->"]
$$ indent (pexp e)
palt (Alit l e) =
(plit l <+> text "->")
$$ indent (pexp e)
palt (Adefault e) =
(text "%_ ->")
$$ indent (pexp e)
plit :: Lit -> Doc
plit (Lint i t) = parens (integer i <> text "::" <> pty t)
plit (Lrational r t) = parens (text (show (numerator r)) <+> char '%'
<+> text (show (denominator r)) <> text "::" <> pty t)
plit (Lchar c t) = parens (text ("\'" ++ escape [c] ++ "\'") <> text "::" <> pty t)
plit (Lstring bs t) = parens (pstring str <> text "::" <> pty t)
where str = map (chr . fromIntegral) bs
pstring :: String -> Doc
pstring s = doubleQuotes(text (escape s))
escape :: String -> String
escape s = foldr f [] (map ord s)
where
f cv rest
| cv > 0xFF = '\\':'x':hs ++ rest
| (cv < 0x20 || cv > 0x7e || cv == 0x22 || cv == 0x27 || cv == 0x5c) =
'\\':'x':h1:h0:rest
where (q1,r1) = quotRem cv 16
h1 = intToDigit q1
h0 = intToDigit r1
hs = dropWhile (=='0') $ reverse $ mkHex cv
mkHex 0 = ""
mkHex cv = intToDigit r : mkHex q
where (q,r) = quotRem cv 16
f cv rest = (chr cv):rest
\end{code}