module PGF.Printer (ppPGF,ppCat,ppFId,ppFunId,ppSeqId,ppSeq,ppFun) where
import PGF.CId
import PGF.Data
import PGF.ByteCode
import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.IntMap as IntMap
import Data.List
import Data.Array.IArray
import Text.PrettyPrint
ppPGF :: PGF -> Doc
ppPGF pgf = ppAbs (absname pgf) (abstract pgf) $$ ppAll ppCnc (concretes pgf)
ppAbs :: Language -> Abstr -> Doc
ppAbs name a = text "abstract" <+> ppCId name <+> char '{' $$
nest 2 (ppAll ppFlag (aflags a) $$
ppAll ppCat (cats a) $$
ppAll ppFun (funs a)) $$
char '}'
ppFlag :: CId -> Literal -> Doc
ppFlag flag value = text "flag" <+> ppCId flag <+> char '=' <+> ppLit value <+> char ';'
ppCat :: CId -> ([Hypo],[(Double,CId)],Double) -> Doc
ppCat c (hyps,_,_) = text "cat" <+> ppCId c <+> hsep (snd (mapAccumL (ppHypo 4) [] hyps)) <+> char ';'
ppFun :: CId -> (Type,Int,Maybe ([Equation],[[Instr]]),Double) -> Doc
ppFun f (t,_,Just (eqs,code),_) = text "fun" <+> ppCId f <+> colon <+> ppType 0 [] t <+> char ';' $$
(if null eqs
then empty
else text "def" <+> vcat [let scope = foldl pattScope [] patts
ds = map (ppPatt 9 scope) patts
in ppCId f <+> hsep ds <+> char '=' <+> ppExpr 0 scope res <+> char ';' | Equ patts res <- eqs]) $$
ppCode 0 code
ppFun f (t,_,Nothing,_) = text "data" <+> ppCId f <+> colon <+> ppType 0 [] t <+> char ';'
ppCnc :: Language -> Concr -> Doc
ppCnc name cnc =
text "concrete" <+> ppCId name <+> char '{' $$
nest 2 (ppAll ppFlag (cflags cnc) $$
text "productions" $$
nest 2 (vcat [ppProduction (fcat,prod) | (fcat,set) <- IntMap.toList (productions cnc), prod <- Set.toList set]) $$
text "lindefs" $$
nest 2 (vcat (map ppFunList (IntMap.toList (lindefs cnc)))) $$
text "linrefs" $$
nest 2 (vcat (map ppFunList (IntMap.toList (linrefs cnc)))) $$
text "lin" $$
nest 2 (vcat (map ppCncFun (assocs (cncfuns cnc)))) $$
text "sequences" $$
nest 2 (vcat (map ppSeq (assocs (sequences cnc)))) $$
text "categories" $$
nest 2 (vcat (map ppCncCat (Map.toList (cnccats cnc)))) $$
text "printnames" $$
nest 2 (vcat (map ppPrintName (Map.toList (printnames cnc))))) $$
char '}'
ppCncArg :: PArg -> Doc
ppCncArg (PArg hyps fid)
| null hyps = ppFId fid
| otherwise = hsep (map (ppFId . snd) hyps) <+> text "->" <+> ppFId fid
ppProduction (fid,PApply funid args) =
ppFId fid <+> text "->" <+> ppFunId funid <> brackets (hcat (punctuate comma (map ppCncArg args)))
ppProduction (fid,PCoerce arg) =
ppFId fid <+> text "->" <+> char '_' <> brackets (ppFId arg)
ppProduction (fid,PConst _ _ ss) =
ppFId fid <+> text "->" <+> ppStrs ss
ppCncFun (funid,CncFun fun arr) =
ppFunId funid <+> text ":=" <+> parens (hcat (punctuate comma (map ppSeqId (elems arr)))) <+> brackets (ppCId fun)
ppFunList (fid,funids) =
ppFId fid <+> text "->" <+> hcat (punctuate comma (map ppFunId funids))
ppSeq (seqid,seq) =
ppSeqId seqid <+> text ":=" <+> hsep (map ppSymbol (elems seq))
ppCncCat (id,(CncCat start end labels)) =
ppCId id <+> text ":=" <+> (text "range " <+> brackets (ppFId start <+> text ".." <+> ppFId end) $$
text "labels" <+> brackets (vcat (map (text . show) (elems labels))))
ppPrintName (id,name) =
ppCId id <+> text ":=" <+> ppStrs [name]
ppSymbol (SymCat d r) = char '<' <> int d <> comma <> int r <> char '>'
ppSymbol (SymLit d r) = char '{' <> int d <> comma <> int r <> char '}'
ppSymbol (SymVar d r) = char '<' <> int d <> comma <> char '$' <> int r <> char '>'
ppSymbol (SymKS t) = doubleQuotes (text t)
ppSymbol SymNE = text "nonExist"
ppSymbol SymBIND = text "BIND"
ppSymbol SymSOFT_BIND = text "SOFT_BIND"
ppSymbol SymSOFT_SPACE= text "SOFT_SPACE"
ppSymbol SymCAPIT = text "CAPIT"
ppSymbol SymALL_CAPIT = text "ALL_CAPIT"
ppSymbol (SymKP syms alts) = text "pre" <+> braces (hsep (punctuate semi (hsep (map ppSymbol syms) : map ppAlt alts)))
ppAlt (syms,ps) = hsep (map ppSymbol syms) <+> char '/' <+> hsep (map (doubleQuotes . text) ps)
ppStrs ss = doubleQuotes (hsep (map text ss))
ppFId fid
| fid == fidString = text "CString"
| fid == fidInt = text "CInt"
| fid == fidFloat = text "CFloat"
| fid == fidVar = text "CVar"
| otherwise = char 'C' <> int fid
ppFunId funid = char 'F' <> int funid
ppSeqId seqid = char 'S' <> int seqid
ppAll :: (a -> b -> Doc) -> Map.Map a b -> Doc
ppAll p m = vcat [ p k v | (k,v) <- Map.toList m]