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|
(***********************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA-Rocquencourt & LRI-CNRS-Orsay *)
(* \VV/ *************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(***********************************************************************)
(* $Id$ *)
open Vernac
open Vernacexpr
open Pfedit
open Pp
open Util
open Names
open Term
open Printer
open Environ
open Evarutil
open Evd
open Hipattern
open Tacmach
open Reductionops
open Termops
open Ideutils
let prerr_endline s = if !debug then prerr_endline s else ()
let output = ref (Format.formatter_of_out_channel stdout)
let msg m =
let b = Buffer.create 103 in
Pp.msg_with (Format.formatter_of_buffer b) m;
Buffer.contents b
let msgnl m =
(msg m)^"\n"
let init () =
(* To hide goal in lower window.
Problem: should not hide "xx is assumed"
messages *)
Options.make_silent true;
Coqtop.init_ide ()
let i = ref 0
let version () =
Printf.sprintf "The Coq Proof Assistant, version %s (%s)\nConfigured on %s\nThis is the %s version (%s is the best one) for architecture %s on system %s
Gtk version is %s"
Coq_config.version Coq_config.date Coq_config.compile_date
(if Mltop.get () = Mltop.Native then "native" else "byte")
(if Coq_config.best="opt" then "native" else "byte")
Coq_config.arch Sys.os_type
(let x,y,z = GMain.Main.version in Printf.sprintf "%d.%d.%d" x y z)
let is_in_coq_lib dir =
prerr_endline ("Is it a coq theory ? : "^dir);
try
let stat = Unix.stat dir in
List.exists
(fun s ->
try
let fdir = Filename.concat
Coq_config.coqlib
(Filename.concat "theories" s)
in
prerr_endline (" Comparing to: "^fdir);
let fstat = Unix.stat fdir in
(fstat.Unix.st_dev = stat.Unix.st_dev) &&
(fstat.Unix.st_ino = stat.Unix.st_ino) &&
(prerr_endline " YES";true)
with _ -> prerr_endline " No(because of a local exn)";false
)
Coq_config.theories_dirs
with _ -> prerr_endline " No(because of a global exn)";false
let is_in_coq_path f =
try
let base = Filename.chop_extension (Filename.basename f) in
let _ = Library.locate_qualified_library
(Libnames.make_qualid Names.empty_dirpath
(Names.id_of_string base)) in
prerr_endline (f ^ "is in coq path");
true
with _ ->
prerr_endline (f ^ "is NOT in coq path");
false
let is_in_proof_mode () =
try ignore (get_pftreestate ()); true with _ -> false
let interp s =
prerr_endline "Starting interp...";
prerr_endline s;
let pe = Pcoq.Gram.Entry.parse
Pcoq.main_entry
(Pcoq.Gram.parsable (Stream.of_string s))
in match pe with
| Some (loc,(VernacDefinition _ | VernacStartTheoremProof _ | VernacBeginSection _
| VernacDefineModule _ | VernacDeclareModuleType _))
when is_in_proof_mode ()
->
raise (Stdpp.Exc_located (loc,
Util.UserError
("CoqIde",
(str "cannot do that while in proof mode."))
))
| _ ->
Vernac.raw_do_vernac (Pcoq.Gram.parsable (Stream.of_string s));
match pe with
| Some last ->
prerr_endline ("...Done with interp of : "^s);
last
| None -> assert false
let interp_and_replace s =
let result = interp s in
let msg = read_stdout () in
result,msg
let nb_subgoals pf =
List.length (fst (Refiner.frontier (Tacmach.proof_of_pftreestate pf)))
type tried_tactic =
| Interrupted
| Success of int (* nb of goals after *)
| Failed
let try_interptac s =
try
prerr_endline ("Starting try_interptac: "^s);
let pf = get_pftreestate () in
let pe = Pcoq.Gram.Entry.parse
Pcoq.main_entry
(Pcoq.Gram.parsable (Stream.of_string s))
in match pe with
| Some (loc,(VernacSolve (n, tac, _))) ->
let tac = Tacinterp.interp tac in
let pf' = solve_nth_pftreestate n tac pf in
prerr_endline "Success";
let nb_goals = nb_subgoals pf' - nb_subgoals pf in
Success nb_goals
| _ ->
prerr_endline "try_interptac: not a tactic"; Failed
with
| Sys.Break | Stdpp.Exc_located (_,Sys.Break)
-> prerr_endline "try_interp: interrupted"; Interrupted
| Stdpp.Exc_located (_,e) -> prerr_endline ("try_interp: failed ("^(Printexc.to_string e)); Failed
| e -> Failed
let is_tactic = function
| VernacSolve _ -> true
| _ -> false
let rec is_pervasive_exn = function
| Out_of_memory | Stack_overflow | Sys.Break -> true
| Error_in_file (_,_,e) -> is_pervasive_exn e
| Stdpp.Exc_located (_,e) -> is_pervasive_exn e
| DuringCommandInterp (_,e) -> is_pervasive_exn e
| _ -> false
let print_toplevel_error exc =
let (dloc,exc) =
match exc with
| DuringCommandInterp (loc,ie) ->
if loc = dummy_loc then (None,ie) else (Some loc, ie)
| _ -> (None, exc)
in
let (loc,exc) =
match exc with
| Stdpp.Exc_located (loc, ie) -> (Some loc),ie
| Error_in_file (s, (fname, loc), ie) -> None, ie
| _ -> dloc,exc
in
match exc with
| End_of_input -> str "Please report: End of input",None
| Vernacexpr.ProtectedLoop ->
str "ProtectedLoop not allowed by coqide!",None
| Vernacexpr.Drop -> str "Drop is not allowed by coqide!",None
| Vernacexpr.Quit -> str "Quit is not allowed by coqide! Use menus.",None
| _ ->
(try Cerrors.explain_exn exc with e ->
str "Failed to explain error. This is an internal Coq error. Please report.\n"
++ str (Printexc.to_string e)),
(if is_pervasive_exn exc then None else loc)
let process_exn e = let s,loc= print_toplevel_error e in (msgnl s,loc)
let interp_last last =
prerr_string "*";
try
vernac_com (States.with_heavy_rollback Vernacentries.interp) last
with e ->
let s,_ = process_exn e in prerr_endline ("Replay during undo failed because: "^s);
raise e
type hyp = env * evar_map *
((identifier * string) * constr option * constr) *
(string * string)
type concl = env * evar_map * constr * string
type goal = hyp list * concl
let prepare_hyp sigma env ((i,c,d) as a) =
env, sigma,
((i,string_of_id i),c,d),
(msg (pr_var_decl env a), msg (prterm_env_at_top env d))
let prepare_hyps sigma env =
assert (rel_context env = []);
let hyps =
fold_named_context
(fun env d acc -> let hyp = prepare_hyp sigma env d in hyp :: acc)
env ~init:[]
in
List.rev hyps
let prepare_goal sigma g =
let env = evar_env g in
(prepare_hyps sigma env,
(env, sigma, g.evar_concl, msg (prterm_env_at_top env g.evar_concl)))
let get_current_goals () =
let pfts = get_pftreestate () in
let gls = fst (Refiner.frontier (Tacmach.proof_of_pftreestate pfts)) in
let sigma = Tacmach.evc_of_pftreestate pfts in
List.map (prepare_goal sigma) gls
let get_current_goals_nb () =
try List.length (get_current_goals ()) with _ -> 0
let print_no_goal () =
let pfts = get_pftreestate () in
let gls = fst (Refiner.frontier (Tacmach.proof_of_pftreestate pfts)) in
assert (gls = []);
let sigma = Tacmach.project (Tacmach.top_goal_of_pftreestate pfts) in
msg (Proof_trees.pr_subgoals_existential sigma gls)
type word_class = Normal | Kwd | Reserved
let kwd = [(* "Compile";"Inductive";"Qed";"Type";"end";"Axiom";
"Definition";"Load";"Quit";"Variable";"in";"Cases";"FixPoint";
"Parameter";"Set";"of";"CoFixpoint";"Grammar";"Proof";"Syntax";
"using";"CoInductive";"Hypothesis";"Prop";"Theorem";
*)
"Add"; "AddPath"; "Axiom"; "Chapter"; "CoFixpoint";
"CoInductive"; "Defined"; "Definition";
"End"; "Export"; "Fact"; "Fix"; "Fixpoint"; "Global"; "Grammar"; "Hint";
"Hints"; "Hypothesis"; "Immediate"; "Implicits"; "Import"; "Inductive";
"Infix"; "Lemma"; "Load"; "Local";
"Match"; "Module"; "Module Type";
"Mutual"; "Parameter"; "Print"; "Proof"; "Qed";
"Record"; "Recursive"; "Remark"; "Require"; "Save"; "Scheme";
"Section"; "Show"; "Syntactic"; "Syntax"; "Tactic"; "Theorem";
"Unset"; "Variable"; "Variables";
]
let reserved = []
module SHashtbl =
Hashtbl.Make
(struct
type t = string
let equal = ( = )
let hash = Hashtbl.hash
end)
let word_tbl = SHashtbl.create 37
let _ =
List.iter (fun w -> SHashtbl.add word_tbl w Kwd) kwd;
List.iter (fun w -> SHashtbl.add word_tbl w Reserved) reserved
let word_class s =
try
SHashtbl.find word_tbl s
with Not_found -> Normal
type reset_info = NoReset | Reset of Names.identifier * bool ref
let compute_reset_info = function
| VernacDefinition (_, id, DefineBody _, _)
| VernacBeginSection id
| VernacDefineModule (id, _, _, _)
| VernacDeclareModule (id, _, _, _)
| VernacDeclareModuleType (id, _, _)
| VernacAssumption (_, (_,(id,_))::_)
| VernacInductive (_, (id,_,_,_,_) :: _) ->
Reset (id, ref true)
| VernacDefinition (_, id, ProveBody _, _)
| VernacStartTheoremProof (_, id, _, _, _) ->
Reset (id, ref false)
| _ -> NoReset
let reset_initial () =
prerr_endline "Reset initial called"; flush stderr;
Vernacentries.abort_refine Lib.reset_initial ()
let reset_to id =
prerr_endline ("Reset called with "^(string_of_id id));
Vernacentries.abort_refine Lib.reset_name (Util.dummy_loc,id)
let reset_to_mod id =
prerr_endline ("Reset called to Mod/Sect with "^(string_of_id id));
Vernacentries.abort_refine Lib.reset_mod (Util.dummy_loc,id)
let hyp_menu (env, sigma, ((coqident,ident),_,ast),(s,pr_ast)) =
[("Clear "^ident),("Clear "^ident^".");
("Apply "^ident),
("Apply "^ident^".");
("Exact "^ident),
("Exact "^ident^".");
("Generalize "^ident),
("Generalize "^ident^".");
("Absurd <"^ident^">"),
("Absurd "^
pr_ast
^".") ] @
(if is_equation ast then
[ "Discriminate "^ident, "Discriminate "^ident^".";
"Injection "^ident, "Injection "^ident^"." ]
else
[]) @
(let _,t = splay_prod env sigma ast in
if is_equation t then
[ "Rewrite "^ident, "Rewrite "^ident^".";
"Rewrite <- "^ident, "Rewrite <- "^ident^"." ]
else
[]) @
[("Elim "^ident),
("Elim "^ident^".");
("Inversion "^ident),
("Inversion "^ident^".");
("Inversion_clear "^ident),
("Inversion_clear "^ident^".")]
let concl_menu (_,_,concl,_) =
let is_eq = is_equation concl in
["Intro", "Intro.";
"Intros", "Intros.";
"Intuition","Intuition." ] @
(if is_eq then
["Reflexivity", "Reflexivity.";
"Discriminate", "Discriminate.";
"Symmetry", "Symmetry." ]
else
[]) @
["Assumption" ,"Assumption.";
"Omega", "Omega.";
"Ring", "Ring.";
"Auto with *", "Auto with *.";
"EAuto with *", "EAuto with *.";
"Tauto", "Tauto.";
"Trivial", "Trivial.";
"Decide Equality", "Decide Equality.";
"Simpl", "Simpl.";
"Subst", "Subst.";
"Red", "Red.";
"Split", "Split.";
"Left", "Left.";
"Right", "Right.";
]
let id_of_name = function
| Names.Anonymous -> id_of_string "x"
| Names.Name x -> x
let make_cases s =
let qualified_name = Libnames.qualid_of_string s in
let glob_ref = Nametab.locate qualified_name in
match glob_ref with
| Libnames.IndRef i ->
let _,
{
Declarations.mind_nparams = np ;
Declarations.mind_consnames = carr ;
Declarations.mind_nf_lc = tarr }
= Global.lookup_inductive i
in
Util.array_fold_right2
(fun n t l ->
let (al,_) = Term.decompose_prod t in
let al,_ = Util.list_chop (List.length al - np) al in
let rec rename avoid = function
| [] -> []
| (n,_)::l ->
let n' = next_global_ident_away true
(id_of_name n)
avoid
in (string_of_id n')::(rename (n'::avoid) l)
in
let al' = rename [] (List.rev al) in
(string_of_id n :: al') :: l
)
carr
tarr
[]
| _ -> raise Not_found
let is_state_preserving = function
| VernacPrint _ | VernacPrintOption _ | VernacGlobalCheck _
| VernacCheckMayEval _ | VernacSearch _ | VernacLocate _
| VernacShow _ | VernacMemOption _ | VernacComments _
| VernacChdir None | VernacNop ->
prerr_endline "state preserving command found"; true
| _ ->
false
let current_status () =
let path = msg (Libnames.pr_dirpath (Lib.cwd ())) in
let path = if path = "Top" then "Ready" else "Ready in " ^ String.sub path 4 (String.length path - 4) in
try
path ^ ", proving " ^ (Names.string_of_id (Pfedit.get_current_proof_name ()))
with _ -> path
|