module GF.Compile.PGFtoJS (pgf2js) where import PGF(showCId) import PGF.Internal as M import qualified GF.JavaScript.AbsJS as JS import qualified GF.JavaScript.PrintJS as JS --import GF.Data.ErrM --import GF.Infra.Option --import Control.Monad (mplus) --import Data.Array.Unboxed (UArray) import qualified Data.Array.IArray as Array --import Data.Maybe (fromMaybe) import Data.Map (Map) import qualified Data.Set as Set import qualified Data.Map as Map import qualified Data.IntMap as IntMap pgf2js :: PGF -> String pgf2js pgf = JS.printTree $ JS.Program [JS.ElStmt $ JS.SDeclOrExpr $ JS.Decl [JS.DInit (JS.Ident n) grammar]] where n = showCId $ absname pgf as = abstract pgf cs = Map.assocs (concretes pgf) start = showCId $ M.lookStartCat pgf grammar = new "GFGrammar" [js_abstract, js_concrete] js_abstract = abstract2js start as js_concrete = JS.EObj $ map concrete2js cs abstract2js :: String -> Abstr -> JS.Expr abstract2js start ds = new "GFAbstract" [JS.EStr start, JS.EObj $ map absdef2js (Map.assocs (funs ds))] absdef2js :: (CId,(Type,Int,Maybe ([Equation],[[M.Instr]]),Double)) -> JS.Property absdef2js (f,(typ,_,_,_)) = let (args,cat) = M.catSkeleton typ in JS.Prop (JS.IdentPropName (JS.Ident (showCId f))) (new "Type" [JS.EArray [JS.EStr (showCId x) | x <- args], JS.EStr (showCId cat)]) lit2js (LStr s) = JS.EStr s lit2js (LInt n) = JS.EInt n lit2js (LFlt d) = JS.EDbl d concrete2js :: (CId,Concr) -> JS.Property concrete2js (c,cnc) = JS.Prop l (new "GFConcrete" [mapToJSObj (lit2js) $ cflags cnc, JS.EObj $ [JS.Prop (JS.IntPropName cat) (JS.EArray (map frule2js (Set.toList set))) | (cat,set) <- IntMap.toList (productions cnc)], JS.EArray $ (map ffun2js (Array.elems (cncfuns cnc))), JS.EArray $ (map seq2js (Array.elems (sequences cnc))), JS.EObj $ map cats (Map.assocs (cnccats cnc)), JS.EInt (totalCats cnc)]) where l = JS.IdentPropName (JS.Ident (showCId c)) {- litslins = [JS.Prop (JS.StringPropName "Int") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]]), JS.Prop (JS.StringPropName "Float") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]]), JS.Prop (JS.StringPropName "String") (JS.EFun [children] [JS.SReturn $ new "Arr" [JS.EIndex (JS.EVar children) (JS.EInt 0)]])] -} cats (c,CncCat start end _) = JS.Prop (JS.IdentPropName (JS.Ident (showCId c))) (JS.EObj [JS.Prop (JS.IdentPropName (JS.Ident "s")) (JS.EInt start) ,JS.Prop (JS.IdentPropName (JS.Ident "e")) (JS.EInt end)]) {- mkStr :: String -> JS.Expr mkStr s = new "Str" [JS.EStr s] mkSeq :: [JS.Expr] -> JS.Expr mkSeq [x] = x mkSeq xs = new "Seq" xs argIdent :: Integer -> JS.Ident argIdent n = JS.Ident ("x" ++ show n) -} children :: JS.Ident children = JS.Ident "cs" frule2js :: Production -> JS.Expr frule2js (PApply funid args) = new "Apply" [JS.EInt funid, JS.EArray (map farg2js args)] frule2js (PCoerce arg) = new "Coerce" [JS.EInt arg] farg2js (PArg hypos fid) = new "PArg" (map (JS.EInt . snd) hypos ++ [JS.EInt fid]) ffun2js (CncFun f lins) = new "CncFun" [JS.EStr (showCId f), JS.EArray (map JS.EInt (Array.elems lins))] seq2js :: Array.Array DotPos Symbol -> JS.Expr seq2js seq = JS.EArray [sym2js s | s <- Array.elems seq] sym2js :: Symbol -> JS.Expr sym2js (SymCat n l) = new "SymCat" [JS.EInt n, JS.EInt l] sym2js (SymLit n l) = new "SymLit" [JS.EInt n, JS.EInt l] sym2js (SymVar n l) = new "SymVar" [JS.EInt n, JS.EInt l] sym2js (SymKS t) = new "SymKS" [JS.EStr t] sym2js (SymKP ts alts) = new "SymKP" [JS.EArray (map sym2js ts), JS.EArray (map alt2js alts)] sym2js SymBIND = new "SymKS" [JS.EStr "&+"] sym2js SymSOFT_BIND = new "SymKS" [JS.EStr "&+"] sym2js SymSOFT_SPACE = new "SymKS" [JS.EStr "&+"] sym2js SymCAPIT = new "SymKS" [JS.EStr "&|"] sym2js SymALL_CAPIT = new "SymKS" [JS.EStr "&|"] sym2js SymNE = new "SymNE" [] alt2js (ps,ts) = new "Alt" [JS.EArray (map sym2js ps), JS.EArray (map JS.EStr ts)] new :: String -> [JS.Expr] -> JS.Expr new f xs = JS.ENew (JS.Ident f) xs mapToJSObj :: (a -> JS.Expr) -> Map CId a -> JS.Expr mapToJSObj f m = JS.EObj [ JS.Prop (JS.IdentPropName (JS.Ident (showCId k))) (f v) | (k,v) <- Map.toList m ]