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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Pp
open Util
open Names
open Entries
open Environ
open Evd
open Refiner
let refining = Proof_global.there_are_pending_proofs
let check_no_pending_proofs = Proof_global.check_no_pending_proof
let get_current_proof_name = Proof_global.get_current_proof_name
let get_all_proof_names = Proof_global.get_all_proof_names
type lemma_possible_guards = Proof_global.lemma_possible_guards
let delete_proof = Proof_global.discard
let delete_current_proof = Proof_global.discard_current
let delete_all_proofs = Proof_global.discard_all
let undo n =
let p = Proof_global.give_me_the_proof () in
let d = Proof.V82.depth p in
if n >= d then raise Proof.EmptyUndoStack;
for _i = 1 to n do
Proof.undo p
done
let current_proof_depth () =
try
let p = Proof_global.give_me_the_proof () in
Proof.V82.depth p
with Proof_global.NoCurrentProof -> -1
(* [undo_todepth n] resets the proof to its nth step (does [undo (d-n)] where d
is the depth of the focus stack). *)
let undo_todepth n =
try
undo ((current_proof_depth ()) - n )
with Proof_global.NoCurrentProof when n=0 -> ()
let start_proof id str hyps c ?init_tac ?compute_guard hook =
let goals = [ (Global.env_of_context hyps , c) ] in
let init_tac = Option.map Proofview.V82.tactic init_tac in
Proof_global.start_proof id str goals ?compute_guard hook;
try Option.iter Proof_global.run_tactic init_tac
with e -> Proof_global.discard_current (); raise e
let restart_proof () = undo_todepth 1
let cook_proof hook =
let prf = Proof_global.give_me_the_proof () in
hook prf;
match Proof_global.close_proof () with
| (i,([e],cg,str,h)) -> (i,(e,cg,str,h))
| _ -> Errors.anomaly "Pfedit.cook_proof: more than one proof term."
let xml_cook_proof = ref (fun _ -> ())
let set_xml_cook_proof f = xml_cook_proof := f
let get_pftreestate () =
Proof_global.give_me_the_proof ()
let set_end_tac tac =
let tac = Proofview.V82.tactic tac in
Proof_global.set_endline_tactic tac
let set_used_variables l =
Proof_global.set_used_variables l
let get_used_variables () =
Proof_global.get_used_variables ()
exception NoSuchGoal
let _ = Errors.register_handler begin function
| NoSuchGoal -> Errors.error "No such goal."
| _ -> raise Errors.Unhandled
end
let get_nth_V82_goal i =
let p = Proof_global.give_me_the_proof () in
let { it=goals ; sigma = sigma } = Proof.V82.subgoals p in
try
{ it=(List.nth goals (i-1)) ; sigma=sigma }
with Failure _ -> raise NoSuchGoal
let get_goal_context_gen i =
try
let { it=goal ; sigma=sigma } = get_nth_V82_goal i in
(sigma, Refiner.pf_env { it=goal ; sigma=sigma })
with Proof_global.NoCurrentProof -> Errors.error "No focused proof."
let get_goal_context i =
try get_goal_context_gen i
with NoSuchGoal -> Errors.error "No such goal."
let get_current_goal_context () =
try get_goal_context_gen 1
with NoSuchGoal ->
(* spiwack: returning empty evar_map, since if there is no goal, under focus,
there is no accessible evar either *)
(Evd.empty, Global.env ())
let current_proof_statement () =
match Proof_global.V82.get_current_initial_conclusions () with
| (id,([concl],strength,hook)) -> id,strength,concl,hook
| _ -> Errors.anomaly "Pfedit.current_proof_statement: more than one statement"
let solve_nth ?(with_end_tac=false) gi tac =
try
let tac = Proofview.V82.tactic tac in
let tac = if with_end_tac then
Proof_global.with_end_tac tac
else
tac
in
Proof_global.run_tactic (Proofview.tclFOCUS gi gi tac)
with
| Proof_global.NoCurrentProof -> Errors.error "No focused proof"
| Proofview.IndexOutOfRange | Failure "List.chop" ->
let msg = str "No such goal: " ++ int gi ++ str "." in
Errors.errorlabstrm "" msg
let by = solve_nth 1
let instantiate_nth_evar_com n com =
let pf = Proof_global.give_me_the_proof () in
Proof.V82.instantiate_evar n com pf
(**********************************************************************)
(* Shortcut to build a term using tactics *)
open Decl_kinds
let next = let n = ref 0 in fun () -> incr n; !n
let build_constant_by_tactic id sign typ tac =
start_proof id (Global,Proof Theorem) sign typ (fun _ _ -> ());
try
by tac;
let _,(const,_,_,_) = cook_proof (fun _ -> ()) in
delete_current_proof ();
const
with e ->
delete_current_proof ();
raise e
let build_by_tactic env typ tac =
let id = id_of_string ("temporary_proof"^string_of_int (next())) in
let sign = val_of_named_context (named_context env) in
(build_constant_by_tactic id sign typ tac).const_entry_body
(**********************************************************************)
(* Support for resolution of evars in tactic interpretation, including
resolution by application of tactics *)
let implicit_tactic = ref None
let declare_implicit_tactic tac = implicit_tactic := Some tac
let solve_by_implicit_tactic env sigma (evk,args) =
let evi = Evd.find_undefined sigma evk in
match (!implicit_tactic, snd (evar_source evk sigma)) with
| Some tac, (Evar_kinds.ImplicitArg _ | Evar_kinds.QuestionMark _)
when
Sign.named_context_equal (Environ.named_context_of_val evi.evar_hyps)
(Environ.named_context env) ->
(try build_by_tactic env evi.evar_concl (tclCOMPLETE tac)
with e when Logic.catchable_exception e -> raise Exit)
| _ -> raise Exit
|