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|
(**************************************************************************)
(* *)
(* SMTCoq *)
(* Copyright (C) 2011 - 2019 *)
(* *)
(* See file "AUTHORS" for the list of authors *)
(* *)
(* This file is distributed under the terms of the CeCILL-C licence *)
(* *)
(**************************************************************************)
DECLARE PLUGIN "smtcoq_plugin"
open Stdarg
(* This is requires since Coq 8.7 because the Ltac machinery became a
plugin
see: https://lists.gforge.inria.fr/pipermail/coq-commits/2017-February/021276.html *)
open Ltac_plugin
VERNAC COMMAND EXTEND Vernac_zchaff CLASSIFIED AS QUERY
| [ "Parse_certif_zchaff"
ident(dimacs) ident(trace) string(fdimacs) string(fproof) ] ->
[
Zchaff.parse_certif dimacs trace fdimacs fproof
]
| [ "Zchaff_Checker" string(fdimacs) string(fproof) ] ->
[
Zchaff.checker fdimacs fproof
]
| [ "Zchaff_Theorem" ident(name) string(fdimacs) string(fproof) ] ->
[
Zchaff.theorem name fdimacs fproof
]
END
VERNAC COMMAND EXTEND Vernac_verit CLASSIFIED AS QUERY
| [ "Parse_certif_verit"
ident(t_i) ident(t_func) ident(t_atom) ident(t_form) ident(root) ident(used_roots) ident(trace) string(fsmt) string(fproof) ] ->
[
Verit.parse_certif t_i t_func t_atom t_form root used_roots trace fsmt fproof
]
| [ "Verit_Checker" string(fsmt) string(fproof) ] ->
[
Verit.checker fsmt fproof
]
| [ "Verit_Checker_Debug" string(fsmt) string(fproof) ] ->
[
Verit.checker_debug fsmt fproof
]
| [ "Verit_Theorem" ident(name) string(fsmt) string(fproof) ] ->
[
Verit.theorem name fsmt fproof
]
END
VERNAC COMMAND EXTEND Vernac_lfsc CLASSIFIED AS QUERY
| [ "Parse_certif_lfsc"
ident(t_i) ident(t_func) ident(t_atom) ident(t_form) ident(root) ident(used_roots) ident(trace) string(fsmt) string(fproof) ] ->
[
Lfsc.parse_certif t_i t_func t_atom t_form root used_roots trace fsmt fproof
]
| [ "Lfsc_Checker" string(fsmt) string(fproof) ] ->
[
Lfsc.checker fsmt fproof
]
| [ "Lfsc_Checker_Debug" string(fsmt) string(fproof) ] ->
[
Lfsc.checker_debug fsmt fproof
]
| [ "Lfsc_Theorem" ident(name) string(fsmt) string(fproof) ] ->
[
Lfsc.theorem name fsmt fproof
]
END
TACTIC EXTEND Tactic_zchaff
| [ "zchaff_bool" ] -> [ Zchaff.tactic () ]
| [ "zchaff_bool_no_check" ] -> [ Zchaff.tactic_no_check () ]
END
let lemmas_list = Summary.ref ~name:"Selected lemmas" []
let cache_lemmas (_, lems) =
lemmas_list := lems
let declare_lemmas : Structures.constr_expr list -> Libobject.obj =
let open Libobject in
declare_object
{
(default_object "LEMMAS") with
cache_function = cache_lemmas;
load_function = (fun _ -> cache_lemmas);
}
let add_lemmas lems =
Lib.add_anonymous_leaf (declare_lemmas (lems @ !lemmas_list))
let clear_lemmas () =
Lib.add_anonymous_leaf (declare_lemmas [])
let get_lemmas () = !lemmas_list
VERNAC COMMAND EXTEND Add_lemma CLASSIFIED AS SIDEFF
| [ "Add_lemmas" constr_list(lems) ] -> [ add_lemmas lems ]
| [ "Clear_lemmas" ] -> [ clear_lemmas () ]
END
TACTIC EXTEND Tactic_verit
| [ "verit_bool_base" constr_list(lpl) ] -> [ Verit.tactic (List.map EConstr.Unsafe.to_constr lpl) (get_lemmas ()) ]
| [ "verit_bool_no_check_base" constr_list(lpl) ] -> [ Verit.tactic_no_check (List.map EConstr.Unsafe.to_constr lpl) (get_lemmas ()) ]
END
TACTIC EXTEND Tactic_cvc4
| [ "cvc4_bool" ] -> [ Lfsc.tactic () ]
| [ "cvc4_bool_no_check" ] -> [ Lfsc.tactic_no_check () ]
END
|