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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i camlp4deps: "parsing/grammar.cma" i*)
(*
Syntax for the subtac terms and types.
Elaborated from correctness/psyntax.ml4 by Jean-Christophe Filliâtre *)
open Flags
open Util
open Names
open Nameops
open Vernacentries
open Reduction
open Term
open Libnames
open Topconstr
(* We define new entries for programs, with the use of this module
* Subtac. These entries are named Subtac.<foo>
*)
module Gram = Pcoq.Gram
module Vernac = Pcoq.Vernac_
module Tactic = Pcoq.Tactic
module SubtacGram =
struct
let gec s = Gram.entry_create ("Subtac."^s)
(* types *)
let subtac_gallina_loc : Vernacexpr.vernac_expr located Gram.entry = gec "subtac_gallina_loc"
let subtac_withtac : Tacexpr.raw_tactic_expr option Gram.entry = gec "subtac_withtac"
end
open Rawterm
open SubtacGram
open Util
open Pcoq
open Prim
open Constr
let sigref = mkRefC (Qualid (dummy_loc, Libnames.qualid_of_string "Coq.Init.Specif.sig"))
GEXTEND Gram
GLOBAL: subtac_gallina_loc typeclass_constraint subtac_withtac;
subtac_gallina_loc:
[ [ g = Vernac.gallina -> loc, g
| g = Vernac.gallina_ext -> loc, g ] ]
;
subtac_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
[LocalRawAssum ([id], default_binder_kind, typ)]
] ];
END
type 'a gallina_loc_argtype = (Vernacexpr.vernac_expr located, 'a) Genarg.abstract_argument_type
let (wit_subtac_gallina_loc : Genarg.tlevel gallina_loc_argtype),
(globwit_subtac_gallina_loc : Genarg.glevel gallina_loc_argtype),
(rawwit_subtac_gallina_loc : Genarg.rlevel gallina_loc_argtype) =
Genarg.create_arg "subtac_gallina_loc"
type 'a withtac_argtype = (Tacexpr.raw_tactic_expr option, 'a) Genarg.abstract_argument_type
let (wit_subtac_withtac : Genarg.tlevel withtac_argtype),
(globwit_subtac_withtac : Genarg.glevel withtac_argtype),
(rawwit_subtac_withtac : Genarg.rlevel withtac_argtype) =
Genarg.create_arg "subtac_withtac"
VERNAC COMMAND EXTEND Subtac
[ "Program" subtac_gallina_loc(g) ] -> [ Subtac.subtac g ]
END
let try_catch_exn f e =
try f e
with exn -> errorlabstrm "Program" (Cerrors.explain_exn exn)
let subtac_obligation e = try_catch_exn Subtac_obligations.subtac_obligation e
let next_obligation e = try_catch_exn Subtac_obligations.next_obligation e
let try_solve_obligation e = try_catch_exn Subtac_obligations.try_solve_obligation e
let try_solve_obligations e = try_catch_exn Subtac_obligations.try_solve_obligations e
let solve_all_obligations e = try_catch_exn Subtac_obligations.solve_all_obligations e
let admit_obligations e = try_catch_exn Subtac_obligations.admit_obligations e
VERNAC COMMAND EXTEND Subtac_Obligations
| [ "Obligation" integer(num) "of" ident(name) ":" lconstr(t) subtac_withtac(tac) ] ->
[ subtac_obligation (num, Some name, Some t) tac ]
| [ "Obligation" integer(num) "of" ident(name) subtac_withtac(tac) ] ->
[ subtac_obligation (num, Some name, None) tac ]
| [ "Obligation" integer(num) ":" lconstr(t) subtac_withtac(tac) ] ->
[ subtac_obligation (num, None, Some t) tac ]
| [ "Obligation" integer(num) subtac_withtac(tac) ] ->
[ subtac_obligation (num, None, None) tac ]
| [ "Next" "Obligation" "of" ident(name) subtac_withtac(tac) ] ->
[ next_obligation (Some name) tac ]
| [ "Next" "Obligation" subtac_withtac(tac) ] -> [ next_obligation None tac ]
END
VERNAC COMMAND EXTEND Subtac_Solve_Obligation
| [ "Solve" "Obligation" integer(num) "of" ident(name) "using" tactic(t) ] ->
[ try_solve_obligation num (Some name) (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligation" integer(num) "using" tactic(t) ] ->
[ try_solve_obligation num None (Some (Tacinterp.interp t)) ]
END
VERNAC COMMAND EXTEND Subtac_Solve_Obligations
| [ "Solve" "Obligations" "of" ident(name) "using" tactic(t) ] ->
[ try_solve_obligations (Some name) (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligations" "using" tactic(t) ] ->
[ try_solve_obligations None (Some (Tacinterp.interp t)) ]
| [ "Solve" "Obligations" ] ->
[ try_solve_obligations None None ]
END
VERNAC COMMAND EXTEND Subtac_Solve_All_Obligations
| [ "Solve" "All" "Obligations" "using" tactic(t) ] ->
[ solve_all_obligations (Some (Tacinterp.interp t)) ]
| [ "Solve" "All" "Obligations" ] ->
[ solve_all_obligations None ]
END
VERNAC COMMAND EXTEND Subtac_Admit_Obligations
| [ "Admit" "Obligations" "of" ident(name) ] -> [ admit_obligations (Some name) ]
| [ "Admit" "Obligations" ] -> [ admit_obligations None ]
END
VERNAC COMMAND EXTEND Subtac_Set_Solver
| [ "Obligation" "Tactic" ":=" tactic(t) ] -> [
Subtac_obligations.set_default_tactic
(Vernacexpr.use_section_locality ())
(Tacinterp.glob_tactic t) ]
END
open Pp
VERNAC COMMAND EXTEND Subtac_Show_Solver
| [ "Show" "Obligation" "Tactic" ] -> [
msgnl (str"Program obligation tactic is " ++ Subtac_obligations.print_default_tactic ()) ]
END
VERNAC COMMAND EXTEND Subtac_Show_Obligations
| [ "Obligations" "of" ident(name) ] -> [ Subtac_obligations.show_obligations (Some name) ]
| [ "Obligations" ] -> [ Subtac_obligations.show_obligations None ]
END
VERNAC COMMAND EXTEND Subtac_Show_Preterm
| [ "Preterm" "of" ident(name) ] -> [ Subtac_obligations.show_term (Some name) ]
| [ "Preterm" ] -> [ Subtac_obligations.show_term None ]
END
|