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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Vernacexpr
open Errors
open Util
open Pp
open Printer
(** 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. Currently CoqIDE is
the only one using this mode, but we try here to be as generic as
possible, so this may change in the future... *)
(** 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)
(** Redirection of standard output to a printable buffer *)
let init_stdout, read_stdout =
let out_buff = Buffer.create 100 in
let out_ft = Format.formatter_of_buffer out_buff in
let deep_out_ft = Format.formatter_of_buffer out_buff in
let _ = Pp_control.set_gp deep_out_ft Pp_control.deep_gp in
(fun () ->
flush_all ();
Pp_control.std_ft := out_ft;
Pp_control.err_ft := out_ft;
Pp_control.deep_ft := deep_out_ft;
),
(fun () -> Format.pp_print_flush out_ft ();
let r = Buffer.contents out_buff in
Buffer.clear out_buff; r)
let pr_with_pid s = Printf.eprintf "[pid %d] %s\n%!" (Unix.getpid ()) 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"]]
let is_known_option cmd = match cmd with
| VernacSetOption (o,BoolValue true)
| VernacUnsetOption o -> coqide_known_option o
| _ -> false
let is_debug cmd = match cmd with
| VernacSetOption (["Ltac";"Debug"], _) -> true
| _ -> false
let is_query cmd = match cmd with
| VernacChdir None
| VernacMemOption _
| VernacPrintOption _
| VernacCheckMayEval _
| VernacGlobalCheck _
| VernacPrint _
| VernacSearch _
| VernacLocate _ -> true
| _ -> false
let is_undo cmd = match cmd with
| VernacUndo _ | VernacUndoTo _ -> true
| _ -> false
(** Check whether a command is forbidden by CoqIDE *)
let coqide_cmd_checks (loc,ast) =
let user_error s = Errors.user_err_loc (loc, "CoqIde", str s) in
if is_debug ast then
user_error "Debug mode not available within CoqIDE";
if is_known_option ast then
msg_warning (strbrk"This will not work. Use CoqIDE display menu instead");
if Vernac.is_navigation_vernac ast || is_undo ast then
msg_warning (strbrk "Rather use CoqIDE navigation instead");
if is_query ast then
msg_warning (strbrk "Query commands should not be inserted in scripts")
(** Interpretation (cf. [Ide_intf.interp]) *)
let add ((s,eid),(sid,verbose)) =
let newid, rc = Stm.add ~ontop:sid verbose ~check:coqide_cmd_checks eid s in
let rc = match rc with `NewTip -> CSig.Inl () | `Unfocus id -> CSig.Inr id in
newid, (rc, read_stdout ())
let edit_at id =
match Stm.edit_at id with
| `NewTip -> CSig.Inl ()
| `Focus { Stm.start; stop; tip} -> CSig.Inr (start, (stop, tip))
let query (s,id) = Stm.query ~at:id s; read_stdout ()
let annotate phrase =
let (loc, ast) =
let pa = Pcoq.Gram.parsable (Stream.of_string phrase) in
Vernac.parse_sentence (pa,None)
in
let (_, xml) =
Richprinter.richpp_vernac ast
in
xml
(** Goal display *)
let hyp_next_tac sigma env (id,_,ast) =
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 =
let norm_constr = Reductionops.nf_evar sigma (Goal.V82.concl sigma g) in
string_of_ppcmds (pr_goal_concl_style_env env sigma norm_constr) in
let process_hyp d (env,l) =
let d = Context.map_named_list_declaration (Reductionops.nf_evar sigma) d in
let d' = List.map (fun x -> (x, pi2 d, pi3 d)) (pi1 d) in
(List.fold_right Environ.push_named d' env,
(string_of_ppcmds (pr_var_list_decl env sigma d)) :: l) in
let (_env, hyps) =
Context.fold_named_list_context 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 () =
Stm.finish ();
let s = read_stdout () in
if not (String.is_empty s) then msg_info (str s);
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
Stm.finish ();
let s = read_stdout () in
if not (String.is_empty s) then msg_info (str s);
let pfts = Proof_global.give_me_the_proof () in
let { Evd.it = all_goals ; sigma = sigma } = Proof.V82.subgoals pfts in
let exl = Evar.Map.bindings (Evarutil.non_instantiated 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 { Evd.it = all_goals ; sigma = sigma } = Proof.V82.subgoals 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 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) *)
Stm.finish ();
if force then Stm.join ();
let s = read_stdout () in
if not (String.is_empty s) then msg_info (str s);
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 ();
}
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 = t.Search.coq_object_object
}
let import_search_constraint = function
| Interface.Name_Pattern s -> Search.Name_Pattern s
| Interface.Type_Pattern s -> Search.Type_Pattern s
| Interface.SubType_Pattern s -> Search.SubType_Pattern s
| Interface.In_Module ms -> Search.In_Module 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 = s.Goptions.opt_sync;
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 dummy = Stateid.dummy in
let loc_of e = match Loc.get_loc e with
| Some loc when not (Loc.is_ghost loc) -> Some (Loc.unloc loc)
| _ -> None in
let mk_msg () = read_stdout ()^"\n"^string_of_ppcmds (Errors.print ~info e) in
match e with
| Errors.Drop -> dummy, None, "Drop is not allowed by coqide!"
| Errors.Quit -> dummy, None, "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
initialized := true;
match file with
| None -> Stm.get_current_state ()
| Some file ->
if not (Filename.check_suffix file ".v") then
error "A file with suffix .v is expected.";
let dir = Filename.dirname file in
let open Loadpath in let open CUnix in
let initial_id, _ =
if not (is_in_load_paths (physical_path_of_string dir)) then
Stm.add false ~ontop:(Stm.get_current_state ())
0 (Printf.sprintf "Add LoadPath \"%s\". " dir)
else Stm.get_current_state (), `NewTip in
Stm.set_compilation_hints file;
Stm.finish ();
initial_id
end
(* Retrocompatibility stuff *)
let interp ((_raw, verbose), s) =
let vernac_parse s =
let pa = Pcoq.Gram.parsable (Stream.of_string s) in
Flags.with_option Flags.we_are_parsing (fun () ->
match Pcoq.Gram.entry_parse Pcoq.main_entry pa with
| None -> raise (Invalid_argument "vernac_parse")
| Some ast -> ast)
() in
Stm.interp verbose (vernac_parse s);
Stm.get_current_state (), CSig.Inl (read_stdout ())
(** 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
(** Grouping all call handlers together + error handling *)
let eval_call xml_oc log c =
let interruptible f x =
catch_break := true;
Control.check_for_interrupt ();
let r = f x in
catch_break := false;
let out = read_stdout () in
if not (String.is_empty out) then log (str out);
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.interp = interruptible interp;
Interface.handle_exn = handle_exn;
Interface.stop_worker = Stm.stop_worker;
Interface.print_ast = Stm.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 = Errors.push e in Mutex.unlock m; iraise e
let slave_logger xml_oc level message =
(* convert the message into XML *)
let msg = string_of_ppcmds (hov 0 message) in
let message = {
Pp.message_level = level;
Pp.message_content = msg;
} in
let () = pr_debug (Printf.sprintf "-> %S" msg) in
let xml = Pp.of_message message in
print_xml xml_oc xml
let slave_feeder xml_oc msg =
let xml = Feedback.of_feedback 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 loop () =
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
let xml_ic = Xml_parser.make (Xml_parser.SLexbuf in_lb) in
let () = Xml_parser.check_eof xml_ic false in
set_logger (slave_logger xml_oc);
set_feeder (slave_feeder xml_oc);
(* We'll handle goal fetching and display in our own way *)
Vernacentries.enable_goal_printing := false;
Vernacentries.qed_display_script := false;
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 q = Xmlprotocol.to_call xml_query in
let () = pr_debug_call q in
let r = eval_call xml_oc (slave_logger xml_oc Pp.Notice) 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 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_debug ("Syntax error in query: " ^ Xml_parser.error_msg err);
exit 1
| Serialize.Marshal_error ->
pr_debug "Incorrect query.";
exit 1
| 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
| x :: rest -> x :: parse rest
| [] -> []
let () = Coqtop.toploop_init := (fun args ->
let args = parse args in
Flags.make_silent true;
init_stdout ();
CoqworkmgrApi.(init Flags.High);
args)
let () = Coqtop.toploop_run := loop
let () = Usage.add_to_usage "coqidetop" " --help-XML-protocol print the documentation of the XML protocol used by CoqIDE\n"
|