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(************************************************************************)
(*  v      *   The Coq Proof Assistant  /  The Coq Development Team     *)
(* <O___,, *   INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017     *)
(*   \VV/  **************************************************************)
(*    //   *      This file is distributed under the terms of the       *)
(*         *       GNU Lesser General Public License Version 2.1        *)
(************************************************************************)

open Vernacexpr
open Vernacprop
open CErrors
open Util
open Pp
open Printer

module RelDecl = Context.Rel.Declaration
module NamedDecl = Context.Named.Declaration
module CompactedDecl = Context.Compacted.Declaration

(** Ide_slave : an implementation of [Interface], i.e. mainly an interp
    function and a rewind function. This specialized loop is triggered
    when the -ideslave option is passed to Coqtop. *)


(** Signal handling: we postpone ^C during input and output phases,
    but make it directly raise a Sys.Break during evaluation of the request. *)

let catch_break = ref false

let init_signal_handler () =
  let f _ = if !catch_break then raise Sys.Break else Control.interrupt := true in
  Sys.set_signal Sys.sigint (Sys.Signal_handle f)

let pr_with_pid s = Printf.eprintf "[pid %d] %s\n%!" (Unix.getpid ()) s

let pr_error s = pr_with_pid s
let pr_debug s =
  if !Flags.debug then pr_with_pid s
let pr_debug_call q =
  if !Flags.debug then pr_with_pid ("<-- " ^ Xmlprotocol.pr_call q)
let pr_debug_answer q r =
  if !Flags.debug then pr_with_pid ("--> " ^ Xmlprotocol.pr_full_value q r)

(** Categories of commands *)

let coqide_known_option table = List.mem table [
  ["Printing";"Implicit"];
  ["Printing";"Coercions"];
  ["Printing";"Matching"];
  ["Printing";"Synth"];
  ["Printing";"Notations"];
  ["Printing";"All"];
  ["Printing";"Records"];
  ["Printing";"Existential";"Instances"];
  ["Printing";"Universes"];
  ["Printing";"Unfocused"]]

let is_known_option cmd = match cmd with
  | VernacSetOption (o,BoolValue true)
  | VernacUnsetOption o -> coqide_known_option o
  | _ -> false

(** Check whether a command is forbidden in the IDE *)

let ide_cmd_checks ~id (loc,ast) =
  let user_error s = CErrors.user_err ?loc ~hdr:"IDE" (str s) in
  let warn msg = Feedback.(feedback ~id (Message (Warning, loc, strbrk msg))) in
  if is_debug ast then
    user_error "Debug mode not available in the IDE";
  if is_known_option ast then
    warn "Set this option from the IDE menu instead";
  if is_navigation_vernac ast || is_undo ast then
    warn "Use IDE navigation instead";
  if is_query ast then
    warn "Query commands should not be inserted in scripts"

(** Interpretation (cf. [Ide_intf.interp]) *)

let ide_doc = ref None
let get_doc () = Option.get !ide_doc
let set_doc doc = ide_doc := Some doc

let add ((s,eid),(sid,verbose)) =
  let doc = get_doc () in
  let pa = Pcoq.Gram.parsable (Stream.of_string s) in
  let loc_ast = Stm.parse_sentence ~doc sid pa in
  let doc, newid, rc = Stm.add ~doc ~ontop:sid verbose loc_ast in
  set_doc doc;
  let rc = match rc with `NewTip -> CSig.Inl () | `Unfocus id -> CSig.Inr id in
  ide_cmd_checks ~id:newid loc_ast;
  (* TODO: the "" parameter is a leftover of the times the protocol
   * used to include stderr/stdout output.
   *
   * Currently, we force all the output meant for the to go via the
   * feedback mechanism, and we don't manipulate stderr/stdout, which
   * are left to the client's discrection. The parameter is still there
   * as not to break the core protocol for this minor change, but it should
   * be removed in the next version of the protocol.
   *)
  newid, (rc, "")

let edit_at id =
  let doc = get_doc () in
  match Stm.edit_at ~doc id with
  | doc, `NewTip -> set_doc doc; CSig.Inl ()
  | doc, `Focus { Stm.start; stop; tip} -> set_doc doc; CSig.Inr (start, (stop, tip))

(* TODO: the "" parameter is a leftover of the times the protocol
 * used to include stderr/stdout output.
 *
 * Currently, we force all the output meant for the to go via the
 * feedback mechanism, and we don't manipulate stderr/stdout, which
 * are left to the client's discrection. The parameter is still there
 * as not to break the core protocol for this minor change, but it should
 * be removed in the next version of the protocol.
 *)
let query (route, (s,id)) =
  let pa = Pcoq.Gram.parsable (Stream.of_string s) in
  let doc = get_doc () in
  Stm.query ~at:id ~doc ~route pa

let annotate phrase =
  let doc = get_doc () in
  let (loc, ast) =
    let pa = Pcoq.Gram.parsable (Stream.of_string phrase) in
    Stm.parse_sentence ~doc (Stm.get_current_state ~doc) pa
  in
  (* XXX: Width should be a parameter of annotate... *)
  Richpp.richpp_of_pp 78 (Ppvernac.pr_vernac ast)

(** Goal display *)

let hyp_next_tac sigma env decl =
  let id = NamedDecl.get_id decl in
  let ast = NamedDecl.get_type decl in
  let id_s = Names.Id.to_string id in
  let type_s = string_of_ppcmds (pr_ltype_env env sigma ast) in
  [
    ("clear "^id_s),("clear "^id_s^".");
    ("apply "^id_s),("apply "^id_s^".");
    ("exact "^id_s),("exact "^id_s^".");
    ("generalize "^id_s),("generalize "^id_s^".");
    ("absurd <"^id_s^">"),("absurd "^type_s^".")
  ] @ [
    ("discriminate "^id_s),("discriminate "^id_s^".");
    ("injection "^id_s),("injection "^id_s^".")
  ] @ [
    ("rewrite "^id_s),("rewrite "^id_s^".");
    ("rewrite <- "^id_s),("rewrite <- "^id_s^".")
  ] @ [
    ("elim "^id_s), ("elim "^id_s^".");
    ("inversion "^id_s), ("inversion "^id_s^".");
    ("inversion clear "^id_s), ("inversion_clear "^id_s^".")
  ]

let concl_next_tac sigma concl =
  let expand s = (s,s^".") in
  List.map expand ([
    "intro";
    "intros";
    "intuition"
  ] @ [
    "reflexivity";
    "discriminate";
    "symmetry"
  ] @ [
    "assumption";
    "omega";
    "ring";
    "auto";
    "eauto";
    "tauto";
    "trivial";
    "decide equality";
    "simpl";
    "subst";
    "red";
    "split";
    "left";
    "right"
  ])

let process_goal sigma g =
  let env = Goal.V82.env sigma g in
  let min_env = Environ.reset_context env in
  let id = Goal.uid g in
  let ccl =
    pr_goal_concl_style_env env sigma (Goal.V82.concl sigma g)
  in
  let process_hyp d (env,l) =
    let d' = CompactedDecl.to_named_context d in
      (List.fold_right Environ.push_named d' env,
       (pr_compacted_decl env sigma d) :: l) in
  let (_env, hyps) =
    Context.Compacted.fold process_hyp
      (Termops.compact_named_context (Environ.named_context env)) ~init:(min_env,[]) in
  { Interface.goal_hyp = List.rev hyps; Interface.goal_ccl = ccl; Interface.goal_id = id; }

let export_pre_goals pgs =
  {
    Interface.fg_goals       = pgs.Proof.fg_goals;
    Interface.bg_goals       = pgs.Proof.bg_goals;
    Interface.shelved_goals  = pgs.Proof.shelved_goals;
    Interface.given_up_goals = pgs.Proof.given_up_goals
  }

let goals () =
  let doc = get_doc () in
  set_doc @@ Stm.finish ~doc;
  try
    let pfts = Proof_global.give_me_the_proof () in
    Some (export_pre_goals (Proof.map_structured_proof pfts process_goal))
  with Proof_global.NoCurrentProof -> None

let evars () =
  try
    let doc = get_doc () in
    set_doc @@ Stm.finish ~doc;
    let pfts = Proof_global.give_me_the_proof () in
    let all_goals, _, _, _, sigma = Proof.proof pfts in
    let exl = Evar.Map.bindings (Evd.undefined_map sigma) in
    let map_evar ev = { Interface.evar_info = string_of_ppcmds (pr_evar sigma ev); } in
    let el = List.map map_evar exl in
    Some el
  with Proof_global.NoCurrentProof -> None

let hints () =
  try
    let pfts = Proof_global.give_me_the_proof () in
    let all_goals, _, _, _, sigma = Proof.proof pfts in
    match all_goals with
    | [] -> None
    | g :: _ ->
      let env = Goal.V82.env sigma g in
      let hint_goal = concl_next_tac sigma g in
      let get_hint_hyp env d accu = hyp_next_tac sigma env d :: accu in
      let hint_hyps = List.rev (Environ.fold_named_context get_hint_hyp env ~init: []) in
      Some (hint_hyps, hint_goal)
  with Proof_global.NoCurrentProof -> None


(** Other API calls *)

let wait () =
  let doc = get_doc () in
  set_doc (Stm.wait ~doc)

let status force =
  (** We remove the initial part of the current [DirPath.t]
      (usually Top in an interactive session, cf "coqtop -top"),
      and display the other parts (opened sections and modules) *)
  set_doc (Stm.finish ~doc:(get_doc ()));
  if force then
    set_doc (Stm.join ~doc:(get_doc ()));
  let path =
    let l = Names.DirPath.repr (Lib.cwd ()) in
    List.rev_map Names.Id.to_string l
  in
  let proof =
    try Some (Names.Id.to_string (Proof_global.get_current_proof_name ()))
    with Proof_global.NoCurrentProof -> None
  in
  let allproofs =
    let l = Proof_global.get_all_proof_names () in
    List.map Names.Id.to_string l
  in
  {
    Interface.status_path = path;
    Interface.status_proofname = proof;
    Interface.status_allproofs = allproofs;
    Interface.status_proofnum = Stm.current_proof_depth ~doc:(get_doc ());
  }

let export_coq_object t = {
  Interface.coq_object_prefix = t.Search.coq_object_prefix;
  Interface.coq_object_qualid = t.Search.coq_object_qualid;
  Interface.coq_object_object = Pp.string_of_ppcmds (pr_lconstr_env (Global.env ()) Evd.empty t.Search.coq_object_object)
}

let pattern_of_string ?env s =
  let env =
    match env with
    | None -> Global.env ()
    | Some e -> e
  in
  let constr = Pcoq.parse_string Pcoq.Constr.lconstr_pattern s in
  let (_, pat) = Constrintern.intern_constr_pattern env constr in
  pat

let dirpath_of_string_list s =
  let path = String.concat "." s in
  let m = Pcoq.parse_string Pcoq.Constr.global path in
  let (_, qid) = Libnames.qualid_of_reference m in
  let id =
    try Nametab.full_name_module qid
    with Not_found ->
      CErrors.user_err ~hdr:"Search.interface_search"
        (str "Module " ++ str path ++ str " not found.")
  in
  id

let import_search_constraint = function
  | Interface.Name_Pattern s    -> Search.Name_Pattern (Str.regexp s)
  | Interface.Type_Pattern s    -> Search.Type_Pattern (pattern_of_string s)
  | Interface.SubType_Pattern s -> Search.SubType_Pattern (pattern_of_string s)
  | Interface.In_Module ms      -> Search.In_Module (dirpath_of_string_list ms)
  | Interface.Include_Blacklist -> Search.Include_Blacklist

let search flags =
  List.map export_coq_object (Search.interface_search (
    List.map (fun (c, b) -> (import_search_constraint c, b)) flags)
  )

let export_option_value = function
  | Goptions.BoolValue b   -> Interface.BoolValue b
  | Goptions.IntValue x    -> Interface.IntValue x
  | Goptions.StringValue s -> Interface.StringValue s
  | Goptions.StringOptValue s -> Interface.StringOptValue s

let import_option_value = function
  | Interface.BoolValue b   -> Goptions.BoolValue b
  | Interface.IntValue x    -> Goptions.IntValue x
  | Interface.StringValue s -> Goptions.StringValue s
  | Interface.StringOptValue s -> Goptions.StringOptValue s

let export_option_state s = {
  Interface.opt_sync  = true;
  Interface.opt_depr  = s.Goptions.opt_depr;
  Interface.opt_name  = s.Goptions.opt_name;
  Interface.opt_value = export_option_value s.Goptions.opt_value;
}

let get_options () =
  let table = Goptions.get_tables () in
  let fold key state accu = (key, export_option_state state) :: accu in
  Goptions.OptionMap.fold fold table []

let set_options options =
  let iter (name, value) = match import_option_value value with
  | BoolValue b -> Goptions.set_bool_option_value name b
  | IntValue i -> Goptions.set_int_option_value name i
  | StringValue s -> Goptions.set_string_option_value name s
  | StringOptValue (Some s) -> Goptions.set_string_option_value name s
  | StringOptValue None -> Goptions.unset_option_value_gen None name
  in
  List.iter iter options

let about () = {
  Interface.coqtop_version = Coq_config.version;
  Interface.protocol_version = Xmlprotocol.protocol_version;
  Interface.release_date = Coq_config.date;
  Interface.compile_date = Coq_config.compile_date;
}

let handle_exn (e, info) =
  let (e, info) = ExplainErr.process_vernac_interp_error (e, info) in
  let dummy = Stateid.dummy in
  let loc_of e = match Loc.get_loc e with
    | Some loc -> Some (Loc.unloc loc)
    | _        -> None in
  let mk_msg () = CErrors.print ~info e in
  match e with
  | CErrors.Drop -> dummy, None, Pp.str "Drop is not allowed by coqide!"
  | CErrors.Quit -> dummy, None, Pp.str "Quit is not allowed by coqide!"
  | e ->
      match Stateid.get info with
      | Some (valid, _) -> valid, loc_of info, mk_msg ()
      | None -> dummy, loc_of info, mk_msg ()

let init =
  let initialized = ref false in
  fun file ->
   if !initialized then anomaly (str "Already initialized.")
   else begin
     let init_sid = Stm.get_current_state ~doc:(get_doc ()) in
     initialized := true;
     match file with
     | None -> init_sid
     | Some file ->
         let dir = Filename.dirname file in
         let open Loadpath in let open CUnix in
         let doc, initial_id, _ =
           let doc = get_doc () in
           if not (is_in_load_paths (physical_path_of_string dir)) then begin
             let pa = Pcoq.Gram.parsable (Stream.of_string (Printf.sprintf "Add LoadPath \"%s\". " dir)) in
             let loc_ast = Stm.parse_sentence ~doc init_sid pa in
             Stm.add false ~doc ~ontop:init_sid loc_ast
           end else doc, init_sid, `NewTip in
         if Filename.check_suffix file ".v" then
           Stm.set_compilation_hints file;
         set_doc (Stm.finish ~doc);
         initial_id
   end

(* Retrocompatibility stuff, disabled since 8.7 *)
let interp ((_raw, verbose), s) =
  Stateid.dummy, CSig.Inr "The interp call has been disabled, please use Add."

(** When receiving the Quit call, we don't directly do an [exit 0],
    but rather set this reference, in order to send a final answer
    before exiting. *)

let quit = ref false

(** Disabled *)
let print_ast id = Xml_datatype.PCData "ERROR"

(** Grouping all call handlers together + error handling *)

let eval_call c =
  let interruptible f x =
    catch_break := true;
    Control.check_for_interrupt ();
    let r = f x in
    catch_break := false;
    r
  in
  let handler = {
    Interface.add = interruptible add;
    Interface.edit_at = interruptible edit_at;
    Interface.query = interruptible query;
    Interface.goals = interruptible goals;
    Interface.evars = interruptible evars;
    Interface.hints = interruptible hints;
    Interface.status = interruptible status;
    Interface.search = interruptible search;
    Interface.get_options = interruptible get_options;
    Interface.set_options = interruptible set_options;
    Interface.mkcases = interruptible Vernacentries.make_cases;
    Interface.quit = (fun () -> quit := true);
    Interface.init = interruptible init;
    Interface.about = interruptible about;
    Interface.wait = interruptible wait;
    Interface.interp = interruptible interp;
    Interface.handle_exn = handle_exn;
    Interface.stop_worker = Stm.stop_worker;
    Interface.print_ast = print_ast;
    Interface.annotate = interruptible annotate;
  } in
  Xmlprotocol.abstract_eval_call handler c

(** Message dispatching.
    Since coqtop -ideslave starts 1 thread per slave, and each
    thread forwards feedback messages from the slave to the GUI on the same
    xml channel, we need mutual exclusion.  The mutex should be per-channel, but
    here we only use 1 channel. *)
let print_xml =
  let m = Mutex.create () in
  fun oc xml ->
    Mutex.lock m;
    try Xml_printer.print oc xml; Mutex.unlock m
    with e -> let e = CErrors.push e in Mutex.unlock m; iraise e

let slave_feeder fmt xml_oc msg =
  let xml = Xmlprotocol.(of_feedback fmt msg) in
  print_xml xml_oc xml

(** The main loop *)

(** Exceptions during eval_call should be converted into [Interface.Fail]
    messages by [handle_exn] above. Otherwise, we die badly, without
    trying to answer malformed requests. *)

let msg_format = ref (fun () ->
    let margin = Option.default 72 (Topfmt.get_margin ()) in
    Xmlprotocol.Richpp margin
)

let loop doc =
  set_doc doc;
  init_signal_handler ();
  catch_break := false;
  let in_ch, out_ch = Spawned.get_channels ()                        in
  let xml_oc        = Xml_printer.make (Xml_printer.TChannel out_ch) in
  let in_lb         = Lexing.from_function (fun s len ->
                      CThread.thread_friendly_read in_ch s ~off:0 ~len) in
  (* SEXP parser make *)
  let xml_ic        = Xml_parser.make (Xml_parser.SLexbuf in_lb) in
  let () = Xml_parser.check_eof xml_ic false in
  ignore (Feedback.add_feeder (slave_feeder (!msg_format ()) xml_oc));
  while not !quit do
    try
      let xml_query = Xml_parser.parse xml_ic in
(*       pr_with_pid (Xml_printer.to_string_fmt xml_query); *)
      let Xmlprotocol.Unknown q = Xmlprotocol.to_call xml_query in
      let () = pr_debug_call q in
      let r  = eval_call q in
      let () = pr_debug_answer q r in
(*       pr_with_pid (Xml_printer.to_string_fmt (Xmlprotocol.of_answer q r)); *)
      print_xml xml_oc Xmlprotocol.(of_answer (!msg_format ()) q r);
      flush out_ch
    with
      | Xml_parser.Error (Xml_parser.Empty, _) ->
        pr_debug "End of input, exiting gracefully.";
        exit 0
      | Xml_parser.Error (err, loc) ->
        pr_error ("XML syntax error: " ^ Xml_parser.error_msg err)
      | Serialize.Marshal_error (msg,node) ->
        pr_error "Unexpected XML message";
        pr_error ("Expected XML node: " ^ msg);
        pr_error ("XML tree received: " ^ Xml_printer.to_string_fmt node)
      | any ->
        pr_debug ("Fatal exception in coqtop:\n" ^ Printexc.to_string any);
        exit 1
  done;
  pr_debug "Exiting gracefully.";
  exit 0

let rec parse = function
  | "--help-XML-protocol" :: rest ->
        Xmlprotocol.document Xml_printer.to_string_fmt; exit 0
  | "--xml_format=Ppcmds" :: rest ->
        msg_format := (fun () -> Xmlprotocol.Ppcmds); parse rest
  | x :: rest -> x :: parse rest
  | [] -> []

let () = Coqtop.toploop_init := (fun args ->
        let args = parse args in
        Flags.quiet := true;
        CoqworkmgrApi.(init Flags.High);
        args)

let () = Coqtop.toploop_run := loop

let () = Usage.add_to_usage "coqidetop"
"  --xml_format=Ppcmds    serialize pretty printing messages using the std_ppcmds format\
\n  --help-XML-protocol    print documentation of the Coq XML protocol\n"
ide/ide_slave.ml

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