package rocq-runtime
The Rocq Prover -- Core Binaries and Tools
Install
Dune Dependency
Authors
Maintainers
Sources
rocq-9.0.0.tar.gz
md5=8d522602d23e7a665631826dab9aa92b
sha512=f4f76a6a178e421c99ee7a331a2fd97a06e9c5d0168d7e60c44e3820d8e1a124370ea104ad90c7f87a9a1e9d87b2d0d7d2d387c998feeaed4a75ed04e176a4be
doc/src/derive_plugin/derive.ml.html
Source file derive.ml
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78(************************************************************************) (* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \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 Context.Named.Declaration open Vernacentries.DefAttributes open Constrexpr let check_allowed_implicit ?loc = function | Generalized _ | Default (MaxImplicit | NonMaxImplicit) -> CErrors.user_err ?loc (Pp.str "Unexpected implicit argument annotation.") | Default Explicit -> () let check_allowed_binders = function | CLocalAssum (n::_, _, impl, _) -> check_allowed_implicit ?loc:n.CAst.loc impl | CLocalPattern _ -> () (* a priori acceptable, but interp_named_context_evars_as_arguments does not support it *) | CLocalDef (n, _, _, _) -> () | CLocalAssum ([], _, _, _) -> assert false let rec fill_assumptions env sigma = function | [] -> sigma, env, [] | LocalAssum (na,t) :: ctx -> let sigma, ev = Evarutil.new_evar env sigma ~src:(Loc.tag @@ Evar_kinds.GoalEvar) ~typeclass_candidate:false t in let decl = LocalDef (na,ev,t) in let sigma, env, ctx = fill_assumptions (EConstr.push_named decl env) sigma ctx in sigma, env, decl :: ctx | LocalDef _ as decl :: ctx -> let sigma, env, ctx = fill_assumptions (EConstr.push_named decl env) sigma ctx in sigma, env, decl :: ctx (** [start_deriving f suchthat lemma] starts a proof of [suchthat] (which can contain references to [f]) in the context extended by [f:=?x]. When the proof ends, [f] is defined as the value of [?x] and [lemma] as the proof. *) let start_deriving ~atts bl suchthat name : Declare.Proof.t = let scope, _local, poly, program_mode, user_warns, typing_flags, using, clearbody = atts.scope, atts.locality, atts.polymorphic, atts.program, atts.user_warns, atts.typing_flags, atts.using, atts.clearbody in if program_mode then CErrors.user_err (Pp.str "Program mode not supported."); let env = Global.env () in let sigma = Evd.from_env env in let () = List.iter check_allowed_binders bl in let sigma, (impls_env, ((env', ctx'), _)) = Constrintern.interp_named_context_evars env sigma bl in let sigma, env', ctx' = fill_assumptions env sigma ctx' in let sigma = Evd.shelve sigma (List.map fst (Evar.Map.bindings (Evd.undefined_map sigma))) in let sigma, (suchthat, impargs) = Constrintern.interp_type_evars_impls env' sigma ~impls:impls_env suchthat in (* create the initial goals for the proof: |- Type ; |- ?1 ; f:=?2 |- suchthat *) let goals = let open Proofview in let rec aux env sigma = function | [] -> TCons ( env , sigma , suchthat , (fun sigma _ -> TNil sigma)) | LocalAssum (id, t) :: _ -> assert false | LocalDef (id, c, t) as d :: ctx -> TCons ( env , sigma , t , (fun sigma ef' -> let sigma = Evd.define (fst (EConstr.destEvar sigma ef')) c sigma in aux (EConstr.push_named d env) sigma ctx)) in aux env sigma ctx' in let kind = Decls.(IsDefinition Definition) in let info = Declare.Info.make ~poly:(Attributes.is_universe_polymorphism ()) ~kind () in let extract_manual = function Some Impargs.{ impl_pos = (na,_,_); impl_expl = Manual; impl_max } -> Some (na, impl_max) | _ -> None in let cinfo = let open Declare.CInfo in List.map (fun d -> let name = get_id d in let impargs = Constrintern.implicits_of_decl_in_internalization_env name impls_env in let impargs = List.map CAst.make (List.map extract_manual impargs) in make ~name ~typ:() ~impargs ()) ctx' @ [make ~name ~typ:() ~impargs ()] in let lemma = Declare.Proof.start_derive ~name ~info ~cinfo goals in Declare.Proof.map lemma ~f:(fun p -> Util.pi1 @@ Proof.run_tactic env Proofview.(tclFOCUS 1 1 shelve) p)