(* camlp4r *) (* $Id$ *) #load "q_MLast.cmo"; open Gramext; value strict_parsing = ref False; value keywords = ref []; value loc = (0, 0); (* Watch the segmentation faults here! the compiled file must have been loaded in camlp4 with the option pa_extend.cmo -meta_action. *) value magic_act (act : Obj.t) : MLast.expr = Obj.magic act; (* Names of symbols for error messages; code borrowed to grammar.ml *) value rec name_of_symbol entry = fun [ Snterm e -> "[" ^ e.ename ^ "]" | Snterml e l -> "[" ^ e.ename ^ " level " ^ l ^ "]" | Sself | Snext -> "[" ^ entry.ename ^ "]" | Stoken tok -> entry.egram.glexer.Token.tok_text tok | _ -> "???" ] ; value rec name_of_symbol_failed entry = fun [ Slist0 s -> name_of_symbol_failed entry s | Slist0sep s _ -> name_of_symbol_failed entry s | Slist1 s -> name_of_symbol_failed entry s | Slist1sep s _ -> name_of_symbol_failed entry s | Sopt s -> name_of_symbol_failed entry s | Stree t -> name_of_tree_failed entry t | s -> name_of_symbol entry s ] and name_of_tree_failed entry = fun [ Node {node = s; brother = bro; son = son} -> let txt = name_of_symbol_failed entry s in let txt = match (s, son) with [ (Sopt _, Node _) -> txt ^ " or " ^ name_of_tree_failed entry son | _ -> txt ] in let txt = match bro with [ DeadEnd | LocAct _ _ -> txt | _ -> txt ^ " or " ^ name_of_tree_failed entry bro ] in txt | DeadEnd | LocAct _ _ -> "???" ] ; value tree_failed entry prev_symb tree = let (s2, s3) = let txt = name_of_tree_failed entry tree in match prev_symb with [ Slist0 s -> let txt1 = name_of_symbol_failed entry s in ("", txt1 ^ " or " ^ txt) | Slist1 s -> let txt1 = name_of_symbol_failed entry s in ("", txt1 ^ " or " ^ txt) | Slist0sep s sep -> let txt1 = name_of_symbol_failed entry s in ("", txt1 ^ " or " ^ txt) | Slist1sep s sep -> let txt1 = name_of_symbol_failed entry s in ("", txt1 ^ " or " ^ txt) | Sopt _ | Stree _ -> ("", txt) | _ -> (name_of_symbol entry prev_symb, txt) ] in <:expr< P.error $str:entry.ename$ $str:String.escaped s2$ $str:String.escaped s3$ >> ; (* Compilation *) value rec find_act = fun [ DeadEnd -> failwith "find_act" | LocAct act _ -> (magic_act act, 0) | Node {son = son; brother = bro} -> let (act, n) = try find_act son with [ Failure _ -> find_act bro ] in (act, n + 1) ] ; value level_number e l = match e.edesc with [ Dlevels elevs -> loop 0 elevs where rec loop n = fun [ [lev :: levs] -> if lev.lname = Some l then n else loop (n + 1) levs | [] -> failwith ("level " ^ l ^ " not found in entry " ^ e.ename) ] | Dparser _ -> 0 ] ; value nth_patt_of_act (e, n) = let patt_list = loop e where rec loop = fun [ <:expr< fun (loc : (int * int)) -> $_$ >> -> [] | <:expr< fun ($p$ : $_$) -> $e$ >> -> [p :: loop e] | <:expr< fun $p$ -> $e$ >> -> [p :: loop e] | _ -> failwith "nth_patt_of_act" ] in List.nth patt_list n ; value rec last_patt_of_act = fun [ <:expr< fun ($p$ : $_$) (loc : (int * int)) -> $_$ >> -> p | <:expr< fun $_$ -> $e$ >> -> last_patt_of_act e | _ -> failwith "last_patt_of_act" ] ; value rec final_action = fun [ <:expr< fun (loc : (int * int)) -> ($e$ : $_$) >> -> e | <:expr< fun $_$ -> $e$ >> -> final_action e | _ -> failwith "final_action" ] ; value parse_standard_symbol e rkont fkont ending_act = <:expr< match try Some ($e$ strm__) with [ Stream.Failure -> None ] with [ Some $nth_patt_of_act ending_act$ -> $rkont$ | _ -> $fkont$ ] >> ; value rec contain_loc = fun [ <:expr< $lid:s$ >> -> s = "loc" | <:expr< $uid:_$ >> -> False | <:expr< $str:_$ >> -> False | <:expr< ($list:el$) >> -> List.exists contain_loc el | <:expr< $e1$ $e2$ >> -> contain_loc e1 || contain_loc e2 | _ -> True ] ; value gen_let_loc loc e = if contain_loc e then <:expr< let loc = P.gloc bp strm__ in $e$ >> else e ; value phony_entry = Grammar.Entry.obj Pcaml.implem; value rec parse_tree entry nlevn alevn (tree, fst_symb) act_kont kont = match tree with [ DeadEnd -> kont | LocAct act _ -> let act = magic_act act in act_kont False act | Node {node = Sself; son = LocAct act _; brother = bro} -> let act = magic_act act in let n = entry.ename ^ "_" ^ string_of_int alevn in let e = if strict_parsing.val || alevn = 0 || fst_symb then <:expr< $lid:n$ >> else <:expr< P.orzero $lid:n$ $lid:entry.ename ^ "_0"$ >> in let p2 = match bro with [ DeadEnd -> kont | _ -> parse_tree entry nlevn alevn (bro, fst_symb) act_kont kont ] in let p1 = act_kont True act in parse_standard_symbol e p1 p2 (act, 0) | Node {node = s; son = LocAct act _; brother = bro} -> let act = magic_act act in let p2 = parse_tree entry nlevn alevn (bro, fst_symb) act_kont kont in let p1 = act_kont False act in parse_symbol entry nlevn s p1 p2 (act, 0) | Node {node = s; son = son; brother = bro} -> let p2 = parse_tree entry nlevn alevn (bro, fst_symb) act_kont kont in let p1 = let err = let txt = tree_failed entry s son in <:expr< raise (Stream.Error $txt$) >> in match son with [ Node {brother = DeadEnd} -> parse_tree entry nlevn alevn (son, False) act_kont err | _ -> let p1 = parse_tree entry nlevn alevn (son, True) act_kont <:expr< raise Stream.Failure >> in <:expr< try $p1$ with [ Stream.Failure -> $err$ ] >> ] in parse_symbol entry nlevn s p1 p2 (find_act son) ] and parse_symbol entry nlevn s rkont fkont ending_act = match s with [ Slist0 s -> let e = <:expr< P.list0 $symbol_parser entry nlevn s$ >> in parse_standard_symbol e rkont fkont ending_act | Slist1 s -> let e = <:expr< P.list1 $symbol_parser entry nlevn s$ >> in parse_standard_symbol e rkont fkont ending_act | Slist0sep s sep -> let e = <:expr< P.list0sep $symbol_parser entry nlevn s$ $symbol_parser entry nlevn sep$ >> in parse_standard_symbol e rkont fkont ending_act | Slist1sep s sep -> let e = <:expr< P.list1sep $symbol_parser entry nlevn s$ $symbol_parser entry nlevn sep$ >> in parse_standard_symbol e rkont fkont ending_act | Sopt s -> let e = <:expr< P.option $symbol_parser entry nlevn s$ >> in parse_standard_symbol e rkont fkont ending_act | Stree tree -> let kont = <:expr< raise Stream.Failure >> in let act_kont _ act = gen_let_loc loc (final_action act) in let e = parse_tree phony_entry 0 0 (tree, True) act_kont kont in parse_standard_symbol <:expr< fun strm__ -> $e$ >> rkont fkont ending_act | Snterm e -> let n = match e.edesc with [ Dparser _ -> e.ename | Dlevels _ -> e.ename ^ "_0" ] in parse_standard_symbol <:expr< $lid:n$ >> rkont fkont ending_act | Snterml e l -> let n = e.ename ^ "_" ^ string_of_int (level_number e l) in parse_standard_symbol <:expr< $lid:n$ >> rkont fkont ending_act | Sself -> let n = entry.ename ^ "_0" in parse_standard_symbol <:expr< $lid:n$ >> rkont fkont ending_act | Stoken tok -> let _ = do { if fst tok = "" && not (List.mem (snd tok) keywords.val) then keywords.val := [snd tok :: keywords.val] else () } in let p = let patt = nth_patt_of_act ending_act in let p_con = String.escaped (fst tok) in let p_prm = String.escaped (snd tok) in if snd tok = "" then if fst tok = "ANY" then <:patt< (_, $patt$) >> else <:patt< ($str:p_con$, $patt$) >> else let p = <:patt< ($str:p_con$, $str:p_prm$) >> in match patt with [ <:patt< _ >> -> <:patt< ($str:p_con$, $str:p_prm$) >> | _ -> <:patt< ($str:p_con$, ($str:p_prm$ as $patt$)) >> ] in <:expr< match Stream.peek strm__ with [ Some $p$ -> do { Stream.junk strm__; $rkont$ } | _ -> $fkont$ ] >> | _ -> parse_standard_symbol <:expr< ps >> rkont fkont ending_act ] and symbol_parser entry nlevn = fun [ Snterm e -> let n = e.ename ^ "_0" in <:expr< $lid:n$ >> | Snterml e l -> let n = e.ename ^ "_" ^ string_of_int (level_number e l) in <:expr< $lid:n$ >> | Snext -> let n = entry.ename ^ "_" ^ string_of_int nlevn in if strict_parsing.val then <:expr< $lid:n$ >> else let n0 = entry.ename ^ "_0" in <:expr< P.orzero $lid:n$ $lid:n0$ >> | Stoken tok -> let _ = do { if fst tok = "" && not (List.mem (snd tok) keywords.val) then keywords.val := [snd tok :: keywords.val] else () } in let p_con = String.escaped (fst tok) in let p_prm = String.escaped (snd tok) in <:expr< P.token ($str:p_con$, $str:p_prm$) >> | Stree tree -> let kont = <:expr< raise Stream.Failure >> in let act_kont _ act = final_action act in <:expr< fun strm__ -> $parse_tree phony_entry 0 0 (tree, True) act_kont kont$ >> | _ -> <:expr< aaa >> ] ; value rec start_parser_of_levels entry clevn levs = let n = entry.ename ^ "_" ^ string_of_int clevn in let next = entry.ename ^ "_" ^ string_of_int (clevn + 1) in let p = <:patt< $lid:n$ >> in match levs with [ [] -> [Some (p, <:expr< fun strm__ -> raise Stream.Failure >>)] | [lev :: levs] -> let pel = start_parser_of_levels entry (succ clevn) levs in match lev.lprefix with [ DeadEnd -> let ncont = if not strict_parsing.val && clevn = 0 then entry.ename ^ "_gen_cont" else entry.ename ^ "_" ^ string_of_int clevn ^ "_cont" in let curr = <:expr< let a = $lid:next$ strm__ in $lid:ncont$ bp a strm__ >> in let curr = <:expr< let bp = Stream.count strm__ in $curr$ >> in let e = <:expr< fun strm__ -> $curr$ >> in let pel = if levs = [] then [] else pel in [Some (p, e) :: pel] | tree -> let alevn = clevn in let (kont, pel) = match levs with [ [] -> (<:expr< raise Stream.Failure >>, []) | _ -> let e = match (lev.assoc, lev.lsuffix) with [ (NonA, _) | (_, DeadEnd) -> <:expr< $lid:next$ strm__ >> | _ -> let ncont = entry.ename ^ "_" ^ string_of_int clevn ^ "_cont" in <:expr< let a = $lid:next$ strm__ in $lid:ncont$ bp a strm__ >> ] in (e, pel) ] in let act_kont end_with_self act = if lev.lsuffix = DeadEnd then gen_let_loc loc (final_action act) else let ncont = entry.ename ^ "_" ^ string_of_int clevn ^ "_cont" in gen_let_loc loc <:expr< $lid:ncont$ bp $final_action act$ strm__ >> in let curr = parse_tree entry (succ clevn) alevn (tree, True) act_kont kont in let curr = <:expr< let bp = Stream.count strm__ in $curr$ >> in let e = <:expr< fun strm__ -> $curr$ >> in [Some (p, e) :: pel] ] ] ; value rec continue_parser_of_levels entry clevn levs = let n = entry.ename ^ "_" ^ string_of_int clevn ^ "_cont" in let p = <:patt< $lid:n$ >> in match levs with [ [] -> [None] | [lev :: levs] -> let pel = continue_parser_of_levels entry (succ clevn) levs in match lev.lsuffix with [ DeadEnd -> [None :: pel] | tree -> let alevn = match lev.assoc with [ LeftA | NonA -> succ clevn | RightA -> clevn ] in let (kont, pel) = match levs with [ [] -> (<:expr< a__ >>, []) | _ -> (<:expr< a__ >>, pel) ] in let act_kont end_with_self act = let p = last_patt_of_act act in match lev.assoc with [ RightA | NonA -> <:expr< let $p$ = a__ in $gen_let_loc loc (final_action act)$ >> | LeftA -> let ncont = entry.ename ^ "_" ^ string_of_int clevn ^ "_cont" in gen_let_loc loc <:expr< let $p$ = a__ in $lid:ncont$ bp $final_action act$ strm__ >> ] in let curr = parse_tree entry (succ clevn) alevn (tree, True) act_kont kont in let e = <:expr< fun bp a__ strm__ -> $curr$ >> in [Some (p, e) :: pel] ] ] ; value continue_parser_of_levels_again entry levs = let n = entry.ename ^ "_gen_cont" in let e = loop <:expr< a__ >> 0 levs where rec loop var levn = fun [ [] -> <:expr< if x == a__ then x else $lid:n$ bp x strm__ >> | [lev :: levs] -> match lev.lsuffix with [ DeadEnd -> loop var (levn + 1) levs | _ -> let n = entry.ename ^ "_" ^ string_of_int levn ^ "_cont" in let rest = loop <:expr< x >> (levn + 1) levs in <:expr< let x = $lid:n$ bp $var$ strm__ in $rest$ >> ] ] in (<:patt< $lid:n$ >>, <:expr< fun bp a__ strm__ -> $e$ >>) ; value empty_entry ename = let p = <:patt< $lid:ename$ >> in let e = <:expr< fun strm__ -> raise (Stream.Error $str:"entry [" ^ ename ^ "] is empty"$) >> in [Some (p, e)] ; value start_parser_of_entry entry = match entry.edesc with [ Dlevels [] -> empty_entry entry.ename | Dlevels elev -> start_parser_of_levels entry 0 elev | Dparser p -> [] ] ; value continue_parser_of_entry entry = match entry.edesc with [ Dlevels elev -> continue_parser_of_levels entry 0 elev | Dparser p -> [] ] ; value continue_parser_of_entry_again entry = if strict_parsing.val then [] else match entry.edesc with [ Dlevels ([_; _ :: _] as levs) -> [continue_parser_of_levels_again entry levs] | _ -> [] ] ; value rec list_alternate l1 l2 = match (l1, l2) with [ ([x1 :: l1], [x2 :: l2]) -> [x1; x2 :: list_alternate l1 l2] | ([], l2) -> l2 | (l1, []) -> l1 ] ; value compile_entry entry = let pel1 = start_parser_of_entry entry in let pel2 = continue_parser_of_entry entry in let pel = list_alternate pel1 pel2 in List.fold_right (fun pe list -> match pe with [ Some pe -> [pe :: list] | None -> list ]) pel (continue_parser_of_entry_again entry) ; (* get all entries connected together *) value rec scan_tree list = fun [ Node {node = n; son = son; brother = bro} -> let list = scan_symbol list n in let list = scan_tree list son in let list = scan_tree list bro in list | LocAct _ _ | DeadEnd -> list ] and scan_symbol list = fun [ Snterm e -> scan_entry list e | Snterml e l -> scan_entry list e | Slist0 s -> scan_symbol list s | Slist0sep s sep -> scan_symbol (scan_symbol list s) sep | Slist1 s -> scan_symbol list s | Slist1sep s sep -> scan_symbol (scan_symbol list s) sep | Sopt s -> scan_symbol list s | Stree t -> scan_tree list t | Sself | Snext | Stoken _ -> list ] and scan_level list lev = let list = scan_tree list lev.lsuffix in let list = scan_tree list lev.lprefix in list and scan_levels list levs = List.fold_left scan_level list levs and scan_entry list entry = if List.memq entry list then list else match entry.edesc with [ Dlevels levs -> scan_levels [entry :: list] levs | Dparser _ -> list ] ; value all_entries_in_graph list entry = List.rev (scan_entry list entry) ; (* main *) value entries = ref []; value rec list_mem_right_assoc x = fun [ [] -> False | [(a, b) :: l] -> x = b || list_mem_right_assoc x l ] ; value rec expr_list = fun [ [] -> <:expr< [] >> | [x :: l] -> <:expr< [$str:String.escaped x$ :: $expr_list l$] >> ] ; value compile () = let _ = do { keywords.val := []; } in let list = List.fold_left all_entries_in_graph [] entries.val in let list = List.filter (fun e -> List.memq e list) entries.val @ List.filter (fun e -> not (List.memq e entries.val)) list in let list = let set = ref [] in List.fold_right (fun entry list -> if List.mem entry.ename set.val then list else do { set.val := [entry.ename :: set.val]; [entry :: list] }) list [] in let pell = List.map compile_entry list in let pel = List.flatten pell in let si1 = <:str_item< value rec $list:pel$ >> in let si2 = let list = List.sort compare keywords.val in <:str_item< List.iter (fun kw -> P.lexer.Token.tok_using ("", kw)) $expr_list list$ >> in let loc = (1, 1) in ([(si1, loc); (si2, loc)], False) ; Pcaml.parse_implem.val := fun _ -> compile (); Pcaml.add_option "-strict_parsing" (Arg.Set strict_parsing) "Don't generate error recovering by trying continuations or first levels" ;