(***********************************************************************) (* *) (* OCaml *) (* *) (* Jacques Garrigue, Kyoto University RIMS *) (* *) (* Copyright 2001 Institut National de Recherche en Informatique et *) (* en Automatique and Kyoto University. All rights reserved. *) (* This file is distributed under the terms of the Q Public License *) (* version 1.0. *) (* *) (***********************************************************************) open StdLabels open Asttypes open Parsetree let norec = ref false let input_file file = let ic = try open_in file with _ -> failwith ("input_file : " ^ file) in let b = Buffer.create 1024 in let buf = String.create 1024 and len = ref 0 in while len := input ic buf 0 1024; !len > 0 do Buffer.add_substring b buf 0 !len done; close_in ic; Buffer.contents b module SMap = struct include Map.Make(struct type t = string let compare = compare end) let rec removes l m = match l with [] -> m | k::l -> let m = try remove k m with Not_found -> m in removes l m end let rec labels_of_sty sty = match sty.ptyp_desc with Ptyp_arrow (lab, _, rem) -> lab :: labels_of_sty rem | Ptyp_alias (rem, _) -> labels_of_sty rem | _ -> [] let rec labels_of_cty cty = match cty.pcty_desc with Pcty_fun (lab, _, rem) -> let (labs, meths) = labels_of_cty rem in (lab :: labs, meths) | Pcty_signature { pcsig_fields = fields } -> ([], List.fold_left fields ~init:[] ~f: begin fun meths -> function { pctf_desc = Pctf_meth (s, _, sty) } -> (s, labels_of_sty sty)::meths | _ -> meths end) | _ -> ([],[]) let rec pattern_vars pat = match pat.ppat_desc with Ppat_var s -> [s.txt] | Ppat_alias (pat, s) -> s.txt :: pattern_vars pat | Ppat_tuple l | Ppat_array l -> List.concat (List.map pattern_vars l) | Ppat_construct (_, Some pat, _) | Ppat_variant (_, Some pat) | Ppat_constraint (pat, _) -> pattern_vars pat | Ppat_record(l, _) -> List.concat (List.map l ~f:(fun (_,p) -> pattern_vars p)) | Ppat_or (pat1, pat2) -> pattern_vars pat1 @ pattern_vars pat2 | Ppat_lazy pat -> pattern_vars pat | Ppat_any | Ppat_constant _ | Ppat_construct _ | Ppat_variant _ | Ppat_type _ | Ppat_unpack _ -> [] let pattern_name pat = match pat.ppat_desc with Ppat_var s -> Some s | Ppat_constraint ({ppat_desc = Ppat_var s}, _) -> Some s | _ -> None let insertions = ref [] let add_insertion pos s = insertions := (pos,s) :: !insertions let sort_insertions () = List.sort !insertions ~cmp:(fun (pos1,_) (pos2,_) -> pos1 - pos2) let is_space = function ' '|'\t'|'\n'|'\r' -> true | _ -> false let is_alphanum = function 'A'..'Z'|'a'..'z'|'_'|'\192'..'\214'|'\216'..'\246' | '\248'..'\255'|'\''|'0'..'9' -> true | _ -> false (* Remove "(" or "begin" before a pattern *) let rec insertion_point pos ~text = let pos' = ref (pos-1) in while is_space text.[!pos'] do decr pos' done; if text.[!pos'] = '(' then insertion_point !pos' ~text else if !pos' >= 5 && String.sub text ~pos:(!pos'-4) ~len:5 = "begin" && not (is_alphanum text.[!pos'-5]) then insertion_point (!pos'-4) ~text else pos (* Search "=" or "->" before "function" *) let rec insertion_point2 pos ~text = let pos' = ref (pos-1) in while is_space text.[!pos'] do decr pos' done; if text.[!pos'] = '(' then insertion_point2 !pos' ~text else if !pos' >= 5 && String.sub text ~pos:(!pos'-4) ~len:5 = "begin" && not (is_alphanum text.[!pos'-5]) then insertion_point2 (!pos'-4) ~text else if text.[!pos'] = '=' then Some !pos' else if !pos' >= 1 && text.[!pos'-1] = '-' && text.[!pos'] = '>' then Some (!pos' - 1) else None let rec insert_labels ~labels ~text expr = match labels, expr.pexp_desc with l::labels, Pexp_function(l', _, [pat, rem]) -> if l <> "" && l.[0] <> '?' && l' = "" then begin let start_c = pat.ppat_loc.Location.loc_start.Lexing.pos_cnum in let pos = insertion_point start_c ~text in match pattern_name pat with | Some name when l = name.txt -> add_insertion pos "~" | _ -> add_insertion pos ("~" ^ l ^ ":") end; insert_labels ~labels ~text rem | l::labels, Pexp_function(l', _, lst) -> let pos = expr.pexp_loc.Location.loc_start.Lexing.pos_cnum in if l <> "" && l.[0] <> '?' && l' = "" && String.sub text ~pos ~len:8 = "function" then begin String.blit ~src:"match th" ~src_pos:0 ~dst:text ~dst_pos:pos ~len:8; add_insertion (pos+6) (l ^ " wi"); match insertion_point2 pos ~text with Some pos' -> add_insertion pos' ("~" ^ l ^ " ") | None -> add_insertion pos ("fun ~" ^ l ^ " -> ") end; List.iter lst ~f:(fun (p,e) -> insert_labels ~labels ~text e) | _, Pexp_match( _, lst) -> List.iter lst ~f:(fun (p,e) -> insert_labels ~labels ~text e) | _, Pexp_try(expr, lst) -> insert_labels ~labels ~text expr; List.iter lst ~f:(fun (p,e) -> insert_labels ~labels ~text e) | _, ( Pexp_let(_,_,e) | Pexp_sequence(_,e) | Pexp_when(_,e) | Pexp_constraint(e,_,_) | Pexp_letmodule(_,_,e) | Pexp_ifthenelse(_,e,None) ) -> insert_labels ~labels ~text e | _, Pexp_ifthenelse (_, e1, Some e2) -> insert_labels ~labels ~text e1; insert_labels ~labels ~text e2 | _ -> () let rec insert_labels_class ~labels ~text expr = match labels, expr.pcl_desc with l::labels, Pcl_fun(l', _, pat, rem) -> if l <> "" && l.[0] <> '?' && l' = "" then begin let start_c = pat.ppat_loc.Location.loc_start.Lexing.pos_cnum in let pos = insertion_point start_c ~text in match pattern_name pat with | Some name when l = name.txt -> add_insertion pos "~" | _ -> add_insertion pos ("~" ^ l ^ ":") end; insert_labels_class ~labels ~text rem | labels, (Pcl_constraint (expr, _) | Pcl_let (_, _, expr)) -> insert_labels_class ~labels ~text expr | _ -> () let rec insert_labels_type ~labels ~text ty = match labels, ty.ptyp_desc with l::labels, Ptyp_arrow(l', _, rem) -> if l <> "" && l.[0] <> '?' && l' = "" then begin let start_c = ty.ptyp_loc.Location.loc_start.Lexing.pos_cnum in let pos = insertion_point start_c ~text in add_insertion pos (l ^ ":") end; insert_labels_type ~labels ~text rem | _ -> () let rec insert_labels_app ~labels ~text args = match labels, args with l::labels, (l',arg)::args -> if l <> "" && l.[0] <> '?' && l' = "" then begin let pos0 = arg.pexp_loc.Location.loc_start.Lexing.pos_cnum in let pos = insertion_point pos0 ~text in match arg.pexp_desc with | Pexp_ident({ txt = Longident.Lident name }) when l = name && pos = pos0 -> add_insertion pos "~" | _ -> add_insertion pos ("~" ^ l ^ ":") end; insert_labels_app ~labels ~text args | _ -> () let insert_labels_app ~labels ~text args = let labels, opt_labels = List.partition labels ~f:(fun l -> l = "" || l.[0] <> '?') in let nopt_labels = List.map opt_labels ~f:(fun l -> String.sub l ~pos:1 ~len:(String.length l - 1)) in (* avoid ambiguous labels *) if List.exists labels ~f:(List.mem ~set:nopt_labels) then () else let aopt_labels = opt_labels @ nopt_labels in let args, lab_args = List.partition args ~f:(fun (l,_) -> l = "") in (* only optional arguments are labeled *) if List.for_all lab_args ~f:(fun (l,_) -> List.mem l ~set:aopt_labels) then insert_labels_app ~labels ~text args let rec add_labels_expr ~text ~values ~classes expr = let add_labels_rec ?(values=values) expr = add_labels_expr ~text ~values ~classes expr in match expr.pexp_desc with Pexp_apply ({pexp_desc=Pexp_ident({ txt = Longident.Lident s })}, args) -> begin try let labels = SMap.find s values in insert_labels_app ~labels ~text args with Not_found -> () end; List.iter args ~f:(fun (_,e) -> add_labels_rec e) | Pexp_apply ({pexp_desc=Pexp_send ({pexp_desc=Pexp_ident({ txt = Longident.Lident s })},meth)}, args) -> begin try if SMap.find s values = [""] then let labels = SMap.find (s ^ "#" ^ meth) values in insert_labels_app ~labels ~text args with Not_found -> () end | Pexp_apply ({pexp_desc=Pexp_new ({ txt = Longident.Lident s })}, args) -> begin try let labels = SMap.find s classes in insert_labels_app ~labels ~text args with Not_found -> () end | Pexp_let (recp, lst, expr) -> let vars = List.concat (List.map lst ~f:(fun (p,_) -> pattern_vars p)) in let vals = SMap.removes vars values in List.iter lst ~f: begin fun (_,e) -> add_labels_rec e ~values:(if recp = Recursive then vals else values) end; add_labels_rec expr ~values:vals | Pexp_function (_, None, lst) -> List.iter lst ~f: (fun (p,e) -> add_labels_rec e ~values:(SMap.removes (pattern_vars p) values)) | Pexp_function (_, Some e, lst) | Pexp_match (e, lst) | Pexp_try (e, lst) -> add_labels_rec e; List.iter lst ~f: (fun (p,e) -> add_labels_rec e ~values:(SMap.removes (pattern_vars p) values)) | Pexp_apply (e, args) -> List.iter add_labels_rec (e :: List.map snd args) | Pexp_tuple l | Pexp_array l -> List.iter add_labels_rec l | Pexp_construct (_, Some e, _) | Pexp_variant (_, Some e) | Pexp_field (e, _) | Pexp_constraint (e, _, _) | Pexp_send (e, _) | Pexp_setinstvar (_, e) | Pexp_letmodule (_, _, e) | Pexp_assert e | Pexp_lazy e | Pexp_poly (e, _) | Pexp_newtype (_, e) | Pexp_open (_, e) -> add_labels_rec e | Pexp_record (lst, opt) -> List.iter lst ~f:(fun (_,e) -> add_labels_rec e); begin match opt with Some e -> add_labels_rec e | None -> () end | Pexp_setfield (e1, _, e2) | Pexp_ifthenelse (e1, e2, None) | Pexp_sequence (e1, e2) | Pexp_while (e1, e2) | Pexp_when (e1, e2) -> add_labels_rec e1; add_labels_rec e2 | Pexp_ifthenelse (e1, e2, Some e3) -> add_labels_rec e1; add_labels_rec e2; add_labels_rec e3 | Pexp_for (s, e1, e2, _, e3) -> add_labels_rec e1; add_labels_rec e2; add_labels_rec e3 ~values:(SMap.removes [s.txt] values) | Pexp_override lst -> List.iter lst ~f:(fun (_,e) -> add_labels_rec e) | Pexp_ident _ | Pexp_constant _ | Pexp_construct _ | Pexp_variant _ | Pexp_new _ | Pexp_assertfalse | Pexp_object _ | Pexp_pack _ -> () let rec add_labels_class ~text ~classes ~values ~methods cl = match cl.pcl_desc with Pcl_constr _ -> () | Pcl_structure { pcstr_self = p; pcstr_fields = l } -> let values = SMap.removes (pattern_vars p) values in let values = match pattern_name p with None -> values | Some s -> List.fold_left methods ~init:(SMap.add s.txt [""] values) ~f:(fun m (k,l) -> SMap.add (s.txt^"#"^k) l m) in ignore (List.fold_left l ~init:values ~f: begin fun values -> function e -> match e.pcf_desc with | Pcf_val (s, _, _, e) -> add_labels_expr ~text ~classes ~values e; SMap.removes [s.txt] values | Pcf_meth (s, _, _, e) -> begin try let labels = List.assoc s.txt methods in insert_labels ~labels ~text e with Not_found -> () end; add_labels_expr ~text ~classes ~values e; values | Pcf_init e -> add_labels_expr ~text ~classes ~values e; values | Pcf_inher _ | Pcf_valvirt _ | Pcf_virt _ | Pcf_constr _ -> values end) | Pcl_fun (_, opt, pat, cl) -> begin match opt with None -> () | Some e -> add_labels_expr ~text ~classes ~values e end; let values = SMap.removes (pattern_vars pat) values in add_labels_class ~text ~classes ~values ~methods cl | Pcl_apply (cl, args) -> List.iter args ~f:(fun (_,e) -> add_labels_expr ~text ~classes ~values e); add_labels_class ~text ~classes ~values ~methods cl | Pcl_let (recp, lst, cl) -> let vars = List.concat (List.map lst ~f:(fun (p,_) -> pattern_vars p)) in let vals = SMap.removes vars values in List.iter lst ~f: begin fun (_,e) -> add_labels_expr e ~text ~classes ~values:(if recp = Recursive then vals else values) end; add_labels_class cl ~text ~classes ~values:vals ~methods | Pcl_constraint (cl, _) -> add_labels_class ~text ~classes ~values ~methods cl let add_labels ~intf ~impl ~file = insertions := []; let values, classes = List.fold_left intf ~init:(SMap.empty, SMap.empty) ~f: begin fun (values, classes as acc) item -> match item.psig_desc with Psig_value (name, {pval_type = sty}) -> (SMap.add name.txt (labels_of_sty sty) values, classes) | Psig_class l -> (values, List.fold_left l ~init:classes ~f: begin fun classes {pci_name=name; pci_expr=cty} -> SMap.add name.txt (labels_of_cty cty) classes end) | _ -> acc end in let text = input_file file in ignore (List.fold_right impl ~init:(values, classes) ~f: begin fun item (values, classes as acc) -> match item.pstr_desc with Pstr_value (recp, l) -> let names = List.concat (List.map l ~f:(fun (p,_) -> pattern_vars p)) in List.iter l ~f: begin fun (pat, expr) -> begin match pattern_name pat with | Some s -> begin try let labels = SMap.find s.txt values in insert_labels ~labels ~text expr; if !norec then () else let values = SMap.fold (fun s l m -> if List.mem s names then SMap.add s l m else m) values SMap.empty in add_labels_expr expr ~text ~values ~classes:SMap.empty with Not_found -> () end | None -> () end; end; (SMap.removes names values, classes) | Pstr_primitive (s, {pval_type=sty}) -> begin try let labels = SMap.find s.txt values in insert_labels_type ~labels ~text sty; (SMap.removes [s.txt] values, classes) with Not_found -> acc end | Pstr_class l -> let names = List.map l ~f:(fun pci -> pci.pci_name.txt) in List.iter l ~f: begin fun {pci_name=name; pci_expr=expr} -> try let (labels, methods) = SMap.find name.txt classes in insert_labels_class ~labels ~text expr; if !norec then () else let classes = SMap.fold (fun s (l,_) m -> if List.mem s names then SMap.add s l m else m) classes SMap.empty in add_labels_class expr ~text ~classes ~methods ~values:SMap.empty with Not_found -> () end; (values, SMap.removes names classes) | _ -> acc end); if !insertions <> [] then begin let backup = file ^ ".bak" in if Sys.file_exists backup then Sys.remove file else Sys.rename file backup; let oc = open_out file in let last_pos = List.fold_left (sort_insertions ()) ~init:0 ~f: begin fun pos (pos', s) -> output oc text pos (pos'-pos); output_string oc s; pos' end in if last_pos < String.length text then output oc text last_pos (String.length text - last_pos); close_out oc end else prerr_endline ("No labels to insert in " ^ file) let process_file file = prerr_endline ("Processing " ^ file); if Filename.check_suffix file ".ml" then let intf = Filename.chop_suffix file ".ml" ^ ".mli" in let ic = open_in intf in let lexbuf = Lexing.from_channel ic in Location.init lexbuf intf; let intf = Parse.interface lexbuf in close_in ic; let ic = open_in file in let lexbuf = Lexing.from_channel ic in Location.init lexbuf file; let impl = Parse.implementation lexbuf in close_in ic; add_labels ~intf ~impl ~file else prerr_endline (file ^ " is not an implementation") let main () = let files = ref [] in Arg.parse ["-norec", Arg.Set norec, "do not labelize recursive calls"] (fun f -> files := f :: !files) "addlabels [-norec] "; let files = List.rev !files in List.iter files ~f:process_file let () = main ()