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(************************************************************************) (* * The Coq Proof Assistant / The Coq Development Team *) (* v * INRIA, CNRS and contributors - Copyright 1999-2019 *) (* <O___,, * (see CREDITS file for the list of authors) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************) open CErrors open Util let papp evdref r args = let open EConstr in let gr = delayed_force r in let evd, hd = Evarutil.new_global !evdref gr in evdref := evd; mkApp (hd, args) let sig_typ () = Coqlib.lib_ref "core.sig.type" let sig_intro () = Coqlib.lib_ref "core.sig.intro" let sig_proj1 () = Coqlib.lib_ref "core.sig.proj1" (* let sig_proj2 () = Coqlib.lib_ref "core.sig.proj2" *) let sigT_typ () = Coqlib.lib_ref "core.sigT.type" let sigT_intro () = Coqlib.lib_ref "core.sigT.intro" let sigT_proj1 () = Coqlib.lib_ref "core.sigT.proj1" let sigT_proj2 () = Coqlib.lib_ref "core.sigT.proj2" let prod_typ () = Coqlib.lib_ref "core.prod.type" let prod_intro () = Coqlib.lib_ref "core.prod.intro" let prod_proj1 () = Coqlib.lib_ref "core.prod.proj1" let prod_proj2 () = Coqlib.lib_ref "core.prod.proj2" let coq_eq_ind () = Coqlib.lib_ref "core.eq.type" let coq_eq_refl () = Coqlib.lib_ref "core.eq.refl" let coq_eq_refl_ref () = Coqlib.lib_ref "core.eq.refl" let coq_eq_rect () = Coqlib.lib_ref "core.eq.rect" let mk_coq_not sigma x = let sigma, notc = Evarutil.new_global sigma Coqlib.(lib_ref "core.not.type") in sigma, EConstr.mkApp (notc, [| x |]) let coq_JMeq_ind () = try Coqlib.lib_ref "core.JMeq.type" with Not_found -> user_err (Pp.str "cannot find Coq.Logic.JMeq.JMeq; maybe library Coq.Logic.JMeq has to be required first.") let coq_JMeq_refl () = Coqlib.lib_ref "core.JMeq.refl" (* let coq_not () = Universes.constr_of_global @@ Coqlib.lib_ref "core.not.type" *) (* let coq_and () = Universes.constr_of_global @@ Coqlib.lib_ref "core.and.type" *) let unsafe_fold_right f = function hd :: tl -> List.fold_right f tl hd | [] -> invalid_arg "unsafe_fold_right" let mk_coq_and sigma l = let sigma, and_typ = Evarutil.new_global sigma Coqlib.(lib_ref "core.and.type") in sigma, unsafe_fold_right (fun c conj -> EConstr.(mkApp (and_typ, [| c ; conj |]))) l (* true = transparent by default, false = opaque if possible *) let proofs_transparency = ref true let program_cases = ref true let program_generalized_coercion = ref true let set_proofs_transparency = (:=) proofs_transparency let get_proofs_transparency () = !proofs_transparency let is_program_generalized_coercion () = !program_generalized_coercion let is_program_cases () = !program_cases open Goptions let () = declare_bool_option { optdepr = false; optname = "preferred transparency of Program obligations"; optkey = ["Transparent";"Obligations"]; optread = get_proofs_transparency; optwrite = set_proofs_transparency; } let () = declare_bool_option { optdepr = false; optname = "program cases"; optkey = ["Program";"Cases"]; optread = (fun () -> !program_cases); optwrite = (:=) program_cases } let () = declare_bool_option { optdepr = false; optname = "program generalized coercion"; optkey = ["Program";"Generalized";"Coercion"]; optread = (fun () -> !program_generalized_coercion); optwrite = (:=) program_generalized_coercion }