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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 *)
(************************************************************************)
(*i camlp4deps: "grammar/grammar.cma" i*)
(*
Syntax for the subtac terms and types.
Elaborated from correctness/psyntax.ml4 by Jean-Christophe Filliâtre *)
open Grammar_API
open Libnames
open Constrexpr
open Constrexpr_ops
open Stdarg
open Tacarg
open Extraargs
let (set_default_tactic, get_default_tactic, print_default_tactic) =
Tactic_option.declare_tactic_option "Program tactic"
let () =
(** Delay to recover the tactic imperatively *)
let tac = Proofview.tclBIND (Proofview.tclUNIT ()) begin fun () ->
snd (get_default_tactic ())
end in
Obligations.default_tactic := tac
let with_tac f tac =
let env = Genintern.empty_glob_sign (Global.env ()) in
let tac = match tac with
| None -> None
| Some tac ->
let tac = Genarg.in_gen (Genarg.rawwit wit_ltac) tac in
let _, tac = Genintern.generic_intern env tac in
Some tac
in
f tac
(* We define new entries for programs, with the use of this module
* Subtac. These entries are named Subtac.<foo>
*)
module Gram = Pcoq.Gram
module Tactic = Pltac
open Pcoq
let sigref = mkRefC (Qualid (Loc.tag @@ Libnames.qualid_of_string "Coq.Init.Specif.sig"))
type 'a withtac_argtype = (Tacexpr.raw_tactic_expr option, 'a) Genarg.abstract_argument_type
let wit_withtac : Tacexpr.raw_tactic_expr option Genarg.uniform_genarg_type =
Genarg.create_arg "withtac"
let withtac = Pcoq.create_generic_entry Pcoq.utactic "withtac" (Genarg.rawwit wit_withtac)
GEXTEND Gram
GLOBAL: withtac;
withtac:
[ [ "with"; t = Tactic.tactic -> Some t
| -> None ] ]
;
Constr.closed_binder:
[[ "("; id=Prim.name; ":"; t=Constr.lconstr; "|"; c=Constr.lconstr; ")" ->
let typ = mkAppC (sigref, [mkLambdaC ([id], default_binder_kind, t, c)]) in
[CLocalAssum ([id], default_binder_kind, typ)]
] ];
END
open Obligations
let obligation obl tac = with_tac (fun t -> Obligations.obligation obl t) tac
let next_obligation obl tac = with_tac (fun t -> Obligations.next_obligation obl t) tac
let classify_obbl _ = Vernacexpr.(VtStartProof ("Classic",Doesn'tGuaranteeOpacity,[]), VtLater)
VERNAC COMMAND EXTEND Obligations CLASSIFIED BY classify_obbl
| [ "Obligation" integer(num) "of" ident(name) ":" lglob(t) withtac(tac) ] ->
[ obligation (num, Some name, Some t) tac ]
| [ "Obligation" integer(num) "of" ident(name) withtac(tac) ] ->
[ obligation (num, Some name, None) tac ]
| [ "Obligation" integer(num) ":" lglob(t) withtac(tac) ] ->
[ obligation (num, None, Some t) tac ]
| [ "Obligation" integer(num) withtac(tac) ] ->
[ obligation (num, None, None) tac ]
| [ "Next" "Obligation" "of" ident(name) withtac(tac) ] ->
[ next_obligation (Some name) tac ]
| [ "Next" "Obligation" withtac(tac) ] -> [ next_obligation None tac ]
END
VERNAC COMMAND EXTEND Solve_Obligation CLASSIFIED AS SIDEFF
| [ "Solve" "Obligation" integer(num) "of" ident(name) "with" tactic(t) ] ->
[ try_solve_obligation num (Some name) (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligation" integer(num) "with" tactic(t) ] ->
[ try_solve_obligation num None (Some (Tacinterp.interp t)) ]
END
VERNAC COMMAND EXTEND Solve_Obligations CLASSIFIED AS SIDEFF
| [ "Solve" "Obligations" "of" ident(name) "with" tactic(t) ] ->
[ try_solve_obligations (Some name) (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligations" "with" tactic(t) ] ->
[ try_solve_obligations None (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligations" ] ->
[ try_solve_obligations None None ]
END
VERNAC COMMAND EXTEND Solve_All_Obligations CLASSIFIED AS SIDEFF
| [ "Solve" "All" "Obligations" "with" tactic(t) ] ->
[ solve_all_obligations (Some (Tacinterp.interp t)) ]
| [ "Solve" "All" "Obligations" ] ->
[ solve_all_obligations None ]
END
VERNAC COMMAND EXTEND Admit_Obligations CLASSIFIED AS SIDEFF
| [ "Admit" "Obligations" "of" ident(name) ] -> [ admit_obligations (Some name) ]
| [ "Admit" "Obligations" ] -> [ admit_obligations None ]
END
VERNAC COMMAND EXTEND Set_Solver CLASSIFIED AS SIDEFF
| [ "Obligation" "Tactic" ":=" tactic(t) ] -> [
set_default_tactic
(Locality.make_section_locality (Locality.LocalityFixme.consume ()))
(Tacintern.glob_tactic t) ]
END
open Pp
VERNAC COMMAND EXTEND Show_Solver CLASSIFIED AS QUERY
| [ "Show" "Obligation" "Tactic" ] -> [
Feedback.msg_info (str"Program obligation tactic is " ++ print_default_tactic ()) ]
END
VERNAC COMMAND EXTEND Show_Obligations CLASSIFIED AS QUERY
| [ "Obligations" "of" ident(name) ] -> [ show_obligations (Some name) ]
| [ "Obligations" ] -> [ show_obligations None ]
END
VERNAC COMMAND EXTEND Show_Preterm CLASSIFIED AS QUERY
| [ "Preterm" "of" ident(name) ] -> [ Feedback.msg_info (show_term (Some name)) ]
| [ "Preterm" ] -> [ Feedback.msg_info (show_term None) ]
END
open Pp
(* Declare a printer for the content of Program tactics *)
let () =
let printer _ _ _ = function
| None -> mt ()
| Some tac -> str "with" ++ spc () ++ Pptactic.pr_raw_tactic tac
in
(* should not happen *)
let dummy _ _ _ expr = assert false in
Pptactic.declare_extra_genarg_pprule wit_withtac printer dummy dummy
|