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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2015 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Ideutils
open Preferences
(** * Version and date *)
let get_version_date () =
let date =
if Glib.Utf8.validate Coq_config.date
then Coq_config.date
else "<date not printable>" in
try
(* the following makes sense only when running with local layout *)
let coqroot = Filename.concat
(Filename.dirname Sys.executable_name)
Filename.parent_dir_name
in
let ch = open_in (Filename.concat coqroot "revision") in
let ver = input_line ch in
let rev = input_line ch in
(ver,rev)
with _ -> (Coq_config.version,date)
let short_version () =
let (ver,date) = get_version_date () in
Printf.sprintf "The Coq Proof Assistant, version %s (%s)\n" ver date
let version () =
let (ver,date) = get_version_date () in
Printf.sprintf
"The Coq Proof Assistant, version %s (%s)\
\nArchitecture %s running %s operating system\
\nGtk version is %s\
\nThis is %s (%s is the best one for this architecture and OS)\
\n"
ver date
Coq_config.arch Sys.os_type
(let x,y,z = GMain.Main.version in Printf.sprintf "%d.%d.%d" x y z)
(Filename.basename Sys.executable_name)
Coq_config.best
(** * Initial checks by launching test coqtop processes *)
let rec read_all_lines in_chan =
try
let arg = input_line in_chan in
let len = String.length arg in
let arg =
if len > 0 && arg.[len - 1] = '\r' then
String.sub arg 0 (len - 1)
else arg
in
arg::(read_all_lines in_chan)
with End_of_file -> []
let fatal_error_popup msg =
let popup = GWindow.message_dialog ~buttons:GWindow.Buttons.ok
~message_type:`ERROR ~message:msg ()
in ignore (popup#run ()); exit 1
let final_info_popup small msg =
if small then
let popup = GWindow.message_dialog ~buttons:GWindow.Buttons.ok
~message_type:`INFO ~message:msg ()
in
let _ = popup#run () in
exit 0
else
let popup = GWindow.dialog () in
let button = GButton.button ~label:"ok" ~packing:popup#action_area#add ()
in
let scroll = GBin.scrolled_window ~hpolicy:`NEVER ~vpolicy:`AUTOMATIC
~packing:popup#vbox#add ~height:500 ()
in
let _ = GMisc.label ~text:msg ~packing:scroll#add_with_viewport () in
let _ = popup#connect#destroy ~callback:(fun _ -> exit 0) in
let _ = button#connect#clicked ~callback:(fun _ -> exit 0) in
let _ = popup#run () in
exit 0
let connection_error cmd lines exn =
fatal_error_popup
("Connection with coqtop failed!\n"^
"Command was: "^cmd^"\n"^
"Answer was: "^(String.concat "\n " lines)^"\n"^
"Exception was: "^Printexc.to_string exn)
let display_coqtop_answer cmd lines =
final_info_popup (List.length lines < 30)
("Coqtop exited\n"^
"Command was: "^cmd^"\n"^
"Answer was: "^(String.concat "\n " lines))
let check_remaining_opt arg =
if arg <> "" && arg.[0] = '-' then fatal_error_popup ("Illegal option: "^arg)
let rec filter_coq_opts args =
let argstr = String.concat " " (List.map Filename.quote args) in
let cmd = Filename.quote (coqtop_path ()) ^" -nois -filteropts " ^ argstr in
let cmd = requote cmd in
let filtered_args = ref [] in
let errlines = ref [] in
try
let oc,ic,ec = Unix.open_process_full cmd (Unix.environment ()) in
filtered_args := read_all_lines oc;
errlines := read_all_lines ec;
match Unix.close_process_full (oc,ic,ec) with
| Unix.WEXITED 0 -> !filtered_args
| Unix.WEXITED 127 -> asks_for_coqtop args
| _ -> display_coqtop_answer cmd (!filtered_args @ !errlines)
with Sys_error _ -> asks_for_coqtop args
| e -> connection_error cmd (!filtered_args @ !errlines) e
and asks_for_coqtop args =
let pb_mes = GWindow.message_dialog
~message:"Failed to load coqtop. Reset the preference to default ?"
~message_type:`QUESTION ~buttons:GWindow.Buttons.yes_no () in
match pb_mes#run () with
| `YES ->
let () = current.cmd_coqtop <- None in
let () = custom_coqtop := None in
let () = pb_mes#destroy () in
filter_coq_opts args
| `DELETE_EVENT | `NO ->
let () = pb_mes#destroy () in
let cmd_sel = GWindow.file_selection
~title:"Coqtop to execute (edit your preference then)"
~filename:(coqtop_path ()) ~urgency_hint:true () in
match cmd_sel#run () with
| `OK ->
let () = custom_coqtop := (Some cmd_sel#filename) in
let () = cmd_sel#destroy () in
filter_coq_opts args
| `CANCEL | `DELETE_EVENT | `HELP -> exit 0
exception WrongExitStatus of string
let print_status = function
| Unix.WEXITED n -> "WEXITED "^string_of_int n
| Unix.WSIGNALED n -> "WSIGNALED "^string_of_int n
| Unix.WSTOPPED n -> "WSTOPPED "^string_of_int n
let check_connection args =
let lines = ref [] in
let argstr = String.concat " " (List.map Filename.quote args) in
let cmd = Filename.quote (coqtop_path ()) ^ " -batch -ideslave " ^ argstr in
let cmd = requote cmd in
try
let oc,ic,ec = Unix.open_process_full cmd (Unix.environment ()) in
lines := read_all_lines oc @ read_all_lines ec;
match Unix.close_process_full (oc,ic,ec) with
| Unix.WEXITED 0 -> () (* coqtop seems ok *)
| st -> raise (WrongExitStatus (print_status st))
with e -> connection_error cmd !lines e
(** Useful stuff *)
let ignore_error f arg =
try ignore (f arg) with _ -> ()
(** An abstract copy of unit.
This will help ensuring that we do not forget to finally call
continuations when building tasks in other modules. *)
type void = Void
(** ccb : existential type for a (call + callback) type.
Reference: http://alan.petitepomme.net/cwn/2004.01.13.html
To rewrite someday with GADT. *)
type 'a poly_ccb = 'a Xmlprotocol.call * ('a Interface.value -> void)
type 't scoped_ccb = { bind_ccb : 'a. 'a poly_ccb -> 't }
type ccb = { open_ccb : 't. 't scoped_ccb -> 't }
let mk_ccb poly = { open_ccb = fun scope -> scope.bind_ccb poly }
let with_ccb ccb e = ccb.open_ccb e
let interrupter = ref (fun pid -> Unix.kill pid Sys.sigint)
(** * The structure describing a coqtop sub-process *)
let gio_channel_of_descr_socket = ref Glib.Io.channel_of_descr
module GlibMainLoop = struct
type async_chan = Glib.Io.channel
type watch_id = Glib.Io.id
type condition = Glib.Io.condition
let add_watch ~callback chan =
Glib.Io.add_watch ~cond:[`ERR; `HUP; `IN; `NVAL; `PRI] ~callback chan
let remove_watch x = try Glib.Io.remove x with Glib.GError _ -> ()
let read_all = Ideutils.io_read_all
let async_chan_of_file fd = Glib.Io.channel_of_descr fd
let async_chan_of_socket s = !gio_channel_of_descr_socket s
let add_timeout ~sec callback =
ignore(Glib.Timeout.add ~ms:(sec * 1000) ~callback)
end
module CoqTop = Spawn.Async(GlibMainLoop)
type handle = {
proc : CoqTop.process;
xml_oc : Xml_printer.t;
mutable alive : bool;
mutable waiting_for : (ccb * logger) option; (* last call + callback + log *)
}
(** Coqtop process status :
- New : a process has been spawned, but not initialized via [init_coqtop].
It will reject tasks given via [try_grab].
- Ready : no current task, accepts new tasks via [try_grab].
- Busy : has accepted a task via [init_coqtop] or [try_grab],
It will reject other tasks for the moment
- Closed : the coqide buffer has been closed, we discard any further task.
*)
type status = New | Ready | Busy | Closed
type 'a task = handle -> ('a -> void) -> void
type reset_kind = Planned | Unexpected
type coqtop = {
(* non quoted command-line arguments of coqtop *)
mutable sup_args : string list;
(* called whenever coqtop dies *)
mutable reset_handler : reset_kind -> unit task;
(* called whenever coqtop sends a feedback message *)
mutable feedback_handler : Feedback.feedback -> unit;
(* actual coqtop process and its status *)
mutable handle : handle;
mutable status : status;
}
let return (x : 'a) : 'a task =
(); fun _ k -> k x
let bind (m : 'a task) (f : 'a -> 'b task) : 'b task =
(); fun h k -> m h (fun x -> f x h k)
let seq (m : unit task) (n : 'a task) : 'a task =
(); fun h k -> m h (fun () -> n h k)
let lift (f : unit -> 'a) : 'a task =
(); fun _ k -> k (f ())
(** * Starting / signaling / ending a real coqtop sub-process *)
(** We simulate a Unix.open_process that also returns the pid of
the created process. Note: this uses Unix.create_process, which
doesn't call bin/sh, so args shouldn't be quoted. The process
cannot be terminated by a Unix.close_process, but rather by a
kill of the pid.
>--ide2top_w--[pipe]--ide2top_r-->
coqide coqtop
<--top2ide_r--[pipe]--top2ide_w--<
Note: we use Unix.stderr in Unix.create_process to get debug
messages from the coqtop's Ide_slave loop.
NB: it's important to close coqide's descriptors (ide2top_w and top2ide_r)
in coqtop. We do this indirectly via [Unix.set_close_on_exec].
This way, coqide has the only remaining copies of these descriptors,
and closing them later will have visible effects in coqtop. Cf man 7 pipe :
- If all file descriptors referring to the write end of a pipe have been
closed, then an attempt to read(2) from the pipe will see end-of-file
(read(2) will return 0).
- If all file descriptors referring to the read end of a pipe have been
closed, then a write(2) will cause a SIGPIPE signal to be generated for
the calling process. If the calling process is ignoring this signal,
then write(2) fails with the error EPIPE.
Symmetrically, coqtop's descriptors (ide2top_r and top2ide_w) should be
closed in coqide.
*)
exception TubeError of string
exception AnswerWithoutRequest of string
let rec check_errors = function
| [] -> ()
| (`IN | `PRI) :: conds -> check_errors conds
| `ERR :: _ -> raise (TubeError "ERR")
| `HUP :: _ -> raise (TubeError "HUP")
| `NVAL :: _ -> raise (TubeError "NVAL")
| `OUT :: _ -> raise (TubeError "OUT")
let handle_intermediate_message handle xml =
let message = Pp.to_message xml in
let level = message.Pp.message_level in
let content = message.Pp.message_content in
let logger = match handle.waiting_for with
| Some (_, l) -> l
| None -> function
| Pp.Error -> Minilib.log ~level:`ERROR
| Pp.Info -> Minilib.log ~level:`INFO
| Pp.Notice -> Minilib.log ~level:`NOTICE
| Pp.Warning -> Minilib.log ~level:`WARNING
| Pp.Debug _ -> Minilib.log ~level:`DEBUG
in
logger level content
let handle_feedback feedback_processor xml =
let feedback = Feedback.to_feedback xml in
feedback_processor feedback
let handle_final_answer handle xml =
let () = Minilib.log "Handling coqtop answer" in
let ccb = match handle.waiting_for with
| None -> raise (AnswerWithoutRequest (Xml_printer.to_string_fmt xml))
| Some (c, _) -> c in
let () = handle.waiting_for <- None in
with_ccb ccb { bind_ccb = fun (c, f) -> f (Xmlprotocol.to_answer c xml) }
type input_state = {
mutable fragment : string;
mutable lexerror : int option;
}
let unsafe_handle_input handle feedback_processor state conds ~read_all =
check_errors conds;
let s = read_all () in
if String.length s = 0 then raise (TubeError "EMPTY");
let s = state.fragment ^ s in
state.fragment <- s;
let lex = Lexing.from_string s in
let p = Xml_parser.make (Xml_parser.SLexbuf lex) in
let rec loop () =
let xml = Xml_parser.parse p in
let l_end = Lexing.lexeme_end lex in
state.fragment <- String.sub s l_end (String.length s - l_end);
state.lexerror <- None;
if Pp.is_message xml then begin
handle_intermediate_message handle xml;
loop ()
end else if Feedback.is_feedback xml then begin
handle_feedback feedback_processor xml;
loop ()
end else begin
ignore (handle_final_answer handle xml)
end
in
try loop ()
with Xml_parser.Error _ as e ->
(* Parsing error at the end of s : we have only received a part of
an xml answer. We store the current fragment for later *)
let l_end = Lexing.lexeme_end lex in
(** Heuristic hack not to reimplement the lexer: if ever the lexer dies
twice at the same place, then this is a non-recoverable error *)
if state.lexerror = Some l_end then raise e;
state.lexerror <- Some l_end
let print_exception = function
| Xml_parser.Error e -> Xml_parser.error e
| Serialize.Marshal_error -> "Protocol violation"
| e -> Printexc.to_string e
let input_watch handle respawner feedback_processor =
let state = { fragment = ""; lexerror = None; } in
(fun conds ~read_all ->
let h = handle () in
if not h.alive then false
else
try unsafe_handle_input h feedback_processor state conds ~read_all; true
with e ->
Minilib.log ("Coqtop reader failed, resetting: "^print_exception e);
respawner ();
false)
let bind_self_as f =
let me = ref None in
let get_me () = Option.get !me in
me := Some(f get_me);
Option.get !me
(** This launches a fresh handle from its command line arguments. *)
let spawn_handle args respawner feedback_processor =
let prog = coqtop_path () in
let args = Array.of_list ("-async-proofs" :: "on" :: "-ideslave" :: args) in
let env =
match !Flags.ideslave_coqtop_flags with
| None -> None
| Some s ->
let open Str in
let open Array in
let opts = split_delim (regexp ",") s in
begin try
let erex = regexp "^extra-env=" in
let echunk = List.find (fun s -> string_match erex s 0) opts in
Some (append
(of_list (split_delim (regexp ";") (replace_first erex "" echunk)))
(Unix.environment ()))
with Not_found -> None end in
bind_self_as (fun handle ->
let proc, oc =
CoqTop.spawn ?env prog args (input_watch handle respawner feedback_processor) in
{
proc;
xml_oc = Xml_printer.make (Xml_printer.TChannel oc);
alive = true;
waiting_for = None;
})
(** This clears any potentially remaining open garbage. *)
let clear_handle h =
if h.alive then begin
(* invalidate the old handle *)
CoqTop.kill h.proc;
ignore(CoqTop.wait h.proc);
h.alive <- false;
end
let mkready coqtop =
fun () -> coqtop.status <- Ready; Void
let rec respawn_coqtop ?(why=Unexpected) coqtop =
clear_handle coqtop.handle;
ignore_error (fun () ->
coqtop.handle <-
spawn_handle
coqtop.sup_args
(fun () -> respawn_coqtop coqtop)
coqtop.feedback_handler) ();
(* Normally, the handle is now a fresh one.
If not, there isn't much we can do ... *)
assert (coqtop.handle.alive = true);
coqtop.status <- New;
ignore (coqtop.reset_handler why coqtop.handle (mkready coqtop))
let spawn_coqtop sup_args =
bind_self_as (fun this -> {
handle = spawn_handle sup_args
(fun () -> respawn_coqtop (this ()))
(fun msg -> (this ()).feedback_handler msg);
sup_args = sup_args;
reset_handler = (fun _ _ k -> k ());
feedback_handler = (fun _ -> ());
status = New;
})
let set_reset_handler coqtop hook = coqtop.reset_handler <- hook
let set_feedback_handler coqtop hook = coqtop.feedback_handler <- hook
let is_computing coqtop = (coqtop.status = Busy)
(* For closing a coqtop, we don't try to send it a Quit call anymore,
but rather close its channels:
- a listening coqtop will handle this just as a Quit call
- a busy coqtop will anyway have to be killed *)
let close_coqtop coqtop =
coqtop.status <- Closed;
clear_handle coqtop.handle
let reset_coqtop coqtop = respawn_coqtop ~why:Planned coqtop
let break_coqtop coqtop =
try !interrupter (CoqTop.unixpid coqtop.handle.proc)
with _ -> Minilib.log "Error while sending Ctrl-C"
let get_arguments coqtop = coqtop.sup_args
let set_arguments coqtop args =
coqtop.sup_args <- args;
reset_coqtop coqtop
let process_task coqtop task =
assert (coqtop.status = Ready || coqtop.status = New);
coqtop.status <- Busy;
try ignore (task coqtop.handle (mkready coqtop))
with e ->
Minilib.log ("Coqtop writer failed, resetting: " ^ Printexc.to_string e);
if coqtop.status <> Closed then respawn_coqtop coqtop
let try_grab coqtop task abort =
match coqtop.status with
|Closed -> ()
|Busy|New -> abort ()
|Ready -> process_task coqtop task
let init_coqtop coqtop task =
assert (coqtop.status = New);
process_task coqtop task
(** * Calls to coqtop *)
(** Cf [Ide_intf] for more details *)
type 'a query = 'a Interface.value task
let eval_call ?(logger=default_logger) call handle k =
(** Send messages to coqtop and prepare the decoding of the answer *)
Minilib.log ("Start eval_call " ^ Xmlprotocol.pr_call call);
assert (handle.alive && handle.waiting_for = None);
handle.waiting_for <- Some (mk_ccb (call,k), logger);
Xml_printer.print handle.xml_oc (Xmlprotocol.of_call call);
Minilib.log "End eval_call";
Void
let add ?(logger=default_logger) x = eval_call ~logger (Xmlprotocol.add x)
let edit_at i = eval_call (Xmlprotocol.edit_at i)
let query ?(logger=default_logger) x = eval_call ~logger (Xmlprotocol.query x)
let mkcases s = eval_call (Xmlprotocol.mkcases s)
let status ?logger force = eval_call ?logger (Xmlprotocol.status force)
let hints x = eval_call (Xmlprotocol.hints x)
let search flags = eval_call (Xmlprotocol.search flags)
let init x = eval_call (Xmlprotocol.init x)
let stop_worker x = eval_call (Xmlprotocol.stop_worker x)
module PrintOpt =
struct
type t = string list
(* Boolean options *)
let implicit = ["Printing"; "Implicit"]
let coercions = ["Printing"; "Coercions"]
let raw_matching = ["Printing"; "Matching"]
let notations = ["Printing"; "Notations"]
let all_basic = ["Printing"; "All"]
let existential = ["Printing"; "Existential"; "Instances"]
let universes = ["Printing"; "Universes"]
type bool_descr = { opts : t list; init : bool; label : string }
let bool_items = [
{ opts = [implicit]; init = false; label = "Display _implicit arguments" };
{ opts = [coercions]; init = false; label = "Display _coercions" };
{ opts = [raw_matching]; init = true;
label = "Display raw _matching expressions" };
{ opts = [notations]; init = true; label = "Display _notations" };
{ opts = [all_basic]; init = false;
label = "Display _all basic low-level contents" };
{ opts = [existential]; init = false;
label = "Display _existential variable instances" };
{ opts = [universes]; init = false; label = "Display _universe levels" };
{ opts = [all_basic;existential;universes]; init = false;
label = "Display all _low-level contents" }
]
(** The current status of the boolean options *)
let current_state = Hashtbl.create 11
let set opt v = Hashtbl.replace current_state opt v
let reset () =
let init_descr d = List.iter (fun o -> set o d.init) d.opts in
List.iter init_descr bool_items
let _ = reset ()
(** Integer option *)
let width = ["Printing"; "Width"]
let width_state = ref None
let set_printing_width w = width_state := Some w
(** Transmitting options to coqtop *)
let enforce h k =
let mkopt o v acc = (o, Interface.BoolValue v) :: acc in
let opts = Hashtbl.fold mkopt current_state [] in
let opts = (width, Interface.IntValue !width_state) :: opts in
eval_call (Xmlprotocol.set_options opts) h
(function
| Interface.Good () -> k ()
| _ -> failwith "Cannot set options. Resetting coqtop")
end
let goals ?logger x h k =
PrintOpt.enforce h (fun () -> eval_call ?logger (Xmlprotocol.goals x) h k)
let evars x h k =
PrintOpt.enforce h (fun () -> eval_call (Xmlprotocol.evars x) h k)
|