(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* !refine_instance); Goptions.optwrite = (fun b -> refine_instance := b) } let typeclasses_db = "typeclass_instances" let set_typeclass_transparency c local b = Hints.add_hints local [typeclasses_db] (Hints.HintsTransparencyEntry ([c], b)) let _ = Hook.set Typeclasses.add_instance_hint_hook (fun inst path local pri poly -> let inst' = match inst with IsConstr c -> Hints.IsConstr (c, Univ.ContextSet.empty) | IsGlobal gr -> Hints.IsGlobRef gr in Flags.silently (fun () -> Hints.add_hints local [typeclasses_db] (Hints.HintsResolveEntry [pri, poly, false, Hints.PathHints path, inst'])) ()); Hook.set Typeclasses.set_typeclass_transparency_hook set_typeclass_transparency; Hook.set Typeclasses.classes_transparent_state_hook (fun () -> Hints.Hint_db.transparent_state (Hints.searchtable_map typeclasses_db)) (** TODO: add subinstances *) let existing_instance glob g pri = let c = global g in let instance = Global.type_of_global_unsafe c in let _, r = decompose_prod_assum instance in match class_of_constr r with | Some (_, ((tc,u), _)) -> add_instance (new_instance tc pri glob (*FIXME*) (Flags.use_polymorphic_flag ()) c) | None -> user_err_loc (loc_of_reference g, "declare_instance", Pp.str "Constant does not build instances of a declared type class.") let mismatched_params env n m = mismatched_ctx_inst env Parameters n m let mismatched_props env n m = mismatched_ctx_inst env Properties n m (* Declare everything in the parameters as implicit, and the class instance as well *) let type_ctx_instance evars env ctx inst subst = let rec aux (subst, instctx) l = function (na, b, t) :: ctx -> let t' = substl subst t in let c', l = match b with | None -> interp_casted_constr_evars env evars (List.hd l) t', List.tl l | Some b -> substl subst b, l in let d = na, Some c', t' in aux (c' :: subst, d :: instctx) l ctx | [] -> subst in aux (subst, []) inst (List.rev ctx) let id_of_class cl = match cl.cl_impl with | ConstRef kn -> let _,_,l = repr_con kn in Label.to_id l | IndRef (kn,i) -> let mip = (Environ.lookup_mind kn (Global.env ())).Declarations.mind_packets in mip.(0).Declarations.mind_typename | _ -> assert false open Pp let instance_hook k pri global imps ?hook cst = Impargs.maybe_declare_manual_implicits false cst ~enriching:false imps; Typeclasses.declare_instance pri (not global) cst; (match hook with Some h -> h cst | None -> ()) let declare_instance_constant k pri global imps ?hook id poly uctx term termtype = let kind = IsDefinition Instance in let entry = Declare.definition_entry ~types:termtype ~poly ~univs:uctx term in let cdecl = (DefinitionEntry entry, kind) in let kn = Declare.declare_constant id cdecl in Declare.definition_message id; instance_hook k pri global imps ?hook (ConstRef kn); id let new_instance ?(abstract=false) ?(global=false) poly ctx (instid, bk, cl) props ?(generalize=true) ?(tac:unit Proofview.tactic option) ?hook pri = let env = Global.env() in let evars = ref (Evd.from_env env) in let tclass, ids = match bk with | Implicit -> Implicit_quantifiers.implicit_application Id.Set.empty ~allow_partial:false (fun avoid (clname, (id, _, t)) -> match clname with | Some (cl, b) -> let t = CHole (Loc.ghost, None, Misctypes.IntroAnonymous, None) in t, avoid | None -> failwith ("new instance: under-applied typeclass")) cl | Explicit -> cl, Id.Set.empty in let tclass = if generalize then CGeneralization (Loc.ghost, Implicit, Some AbsPi, tclass) else tclass in let k, u, cty, ctx', ctx, len, imps, subst = let impls, ((env', ctx), imps) = interp_context_evars env evars ctx in let c', imps' = interp_type_evars_impls ~impls env' evars tclass in let len = List.length ctx in let imps = imps @ Impargs.lift_implicits len imps' in let ctx', c = decompose_prod_assum c' in let ctx'' = ctx' @ ctx in let k, args = Typeclasses.dest_class_app (push_rel_context ctx'' env) c in let cl, u = Typeclasses.typeclass_univ_instance k in let _, args = List.fold_right (fun (na, b, t) (args, args') -> match b with | None -> (List.tl args, List.hd args :: args') | Some b -> (args, substl args' b :: args')) (snd cl.cl_context) (args, []) in cl, u, c', ctx', ctx, len, imps, args in let id = match snd instid with Name id -> let sp = Lib.make_path id in if Nametab.exists_cci sp then errorlabstrm "new_instance" (Nameops.pr_id id ++ Pp.str " already exists."); id | Anonymous -> let i = Nameops.add_suffix (id_of_class k) "_instance_0" in Namegen.next_global_ident_away i (Termops.ids_of_context env) in let env' = push_rel_context ctx env in evars := Evarutil.nf_evar_map !evars; evars := resolve_typeclasses ~filter:Typeclasses.no_goals ~fail:true env !evars; let subst = List.map (Evarutil.nf_evar !evars) subst in if abstract then begin let subst = List.fold_left2 (fun subst' s (_, b, _) -> if Option.is_empty b then s :: subst' else subst') [] subst (snd k.cl_context) in let (_, ty_constr) = instance_constructor (k,u) subst in let nf, subst = Evarutil.e_nf_evars_and_universes evars in let termtype = let t = it_mkProd_or_LetIn ty_constr (ctx' @ ctx) in nf t in Evarutil.check_evars env Evd.empty !evars termtype; let ctx = Evd.universe_context !evars in let cst = Declare.declare_constant ~internal:Declare.KernelSilent id (Entries.ParameterEntry (None,poly,(termtype,ctx),None), Decl_kinds.IsAssumption Decl_kinds.Logical) in instance_hook k None global imps ?hook (ConstRef cst); id end else ( let props = match props with | Some (true, CRecord (loc, _, fs)) -> if List.length fs > List.length k.cl_props then mismatched_props env' (List.map snd fs) k.cl_props; Some (Inl fs) | Some (_, t) -> Some (Inr t) | None -> if Flags.is_program_mode () then Some (Inl []) else None in let subst = match props with | None -> if List.is_empty k.cl_props then Some (Inl subst) else None | Some (Inr term) -> let c = interp_casted_constr_evars env' evars term cty in Some (Inr (c, subst)) | Some (Inl props) -> let get_id = function | Ident id' -> id' | _ -> errorlabstrm "new_instance" (Pp.str "Only local structures are handled") in let props, rest = List.fold_left (fun (props, rest) (id,b,_) -> if Option.is_empty b then try let is_id (id', _) = match id, get_id id' with | Name id, (_, id') -> Id.equal id id' | Anonymous, _ -> false in let (loc_mid, c) = List.find is_id rest in let rest' = List.filter (fun v -> not (is_id v)) rest in let (loc, mid) = get_id loc_mid in List.iter (fun (n, _, x) -> if Name.equal n (Name mid) then Option.iter (fun x -> Dumpglob.add_glob loc (ConstRef x)) x) k.cl_projs; c :: props, rest' with Not_found -> (CHole (Loc.ghost, Some Evar_kinds.GoalEvar, Misctypes.IntroAnonymous, None) :: props), rest else props, rest) ([], props) k.cl_props in match rest with | (n, _) :: _ -> unbound_method env' k.cl_impl (get_id n) | _ -> Some (Inl (type_ctx_instance evars (push_rel_context ctx' env') k.cl_props props subst)) in let term, termtype = match subst with | None -> let termtype = it_mkProd_or_LetIn cty ctx in None, termtype | Some (Inl subst) -> let subst = List.fold_left2 (fun subst' s (_, b, _) -> if Option.is_empty b then s :: subst' else subst') [] subst (k.cl_props @ snd k.cl_context) in let (app, ty_constr) = instance_constructor (k,u) subst in let termtype = it_mkProd_or_LetIn ty_constr (ctx' @ ctx) in let term = Termops.it_mkLambda_or_LetIn (Option.get app) (ctx' @ ctx) in Some term, termtype | Some (Inr (def, subst)) -> let termtype = it_mkProd_or_LetIn cty ctx in let term = Termops.it_mkLambda_or_LetIn def ctx in Some term, termtype in let _ = evars := Evarutil.nf_evar_map !evars; evars := Typeclasses.resolve_typeclasses ~filter:Typeclasses.no_goals_or_obligations ~fail:true env !evars; (* Try resolving fields that are typeclasses automatically. *) evars := Typeclasses.resolve_typeclasses ~filter:Typeclasses.all_evars ~fail:false env !evars in let _ = evars := Evarutil.nf_evar_map_undefined !evars in let evm, nf = Evarutil.nf_evar_map_universes !evars in let termtype = nf termtype in let _ = (* Check that the type is free of evars now. *) Evarutil.check_evars env Evd.empty evm termtype in let term = Option.map nf term in if not (Evd.has_undefined evm) && not (Option.is_empty term) then let ctx = Evd.universe_context evm in declare_instance_constant k pri global imps ?hook id poly ctx (Option.get term) termtype else if !refine_instance then begin let kind = Decl_kinds.Global, poly, Decl_kinds.DefinitionBody Decl_kinds.Instance in if Flags.is_program_mode () then let hook vis gr = let cst = match gr with ConstRef kn -> kn | _ -> assert false in Impargs.declare_manual_implicits false gr ~enriching:false [imps]; Typeclasses.declare_instance pri (not global) (ConstRef cst) in let obls, constr, typ = match term with | Some t -> let obls, _, constr, typ = Obligations.eterm_obligations env id evm 0 t termtype in obls, Some constr, typ | None -> [||], None, termtype in let hook = Lemmas.mk_hook hook in let ctx = Evd.evar_universe_context evm in ignore (Obligations.add_definition id ?term:constr typ ctx ~kind:(Global,poly,Instance) ~hook obls); id else (Flags.silently (fun () -> (* spiwack: it is hard to reorder the actions to do the pretyping after the proof has opened. As a consequence, we use the low-level primitives to code the refinement manually.*) let gls = List.rev (Evd.future_goals evm) in let evm = Evd.reset_future_goals evm in Lemmas.start_proof id kind evm termtype (Lemmas.mk_hook (fun _ -> instance_hook k pri global imps ?hook)); (* spiwack: I don't know what to do with the status here. *) if not (Option.is_empty term) then let init_refine = Tacticals.New.tclTHENLIST [ Proofview.Refine.refine (fun evm -> evm, Option.get term); Proofview.Unsafe.tclNEWGOALS gls; Tactics.New.reduce_after_refine; ] in ignore (Pfedit.by init_refine) else if Flags.is_auto_intros () then ignore (Pfedit.by (Tacticals.New.tclDO len Tactics.intro)); (match tac with Some tac -> ignore (Pfedit.by tac) | None -> ())) (); id) end else Errors.error "Unsolved obligations remaining.") let named_of_rel_context l = let acc, ctx = List.fold_right (fun (na, b, t) (subst, ctx) -> let id = match na with Anonymous -> invalid_arg "named_of_rel_context" | Name id -> id in let d = (id, Option.map (substl subst) b, substl subst t) in (mkVar id :: subst, d :: ctx)) l ([], []) in ctx let context poly l = let env = Global.env() in let evars = ref Evd.empty in let _, ((env', fullctx), impls) = interp_context_evars env evars l in let subst = Evarutil.evd_comb0 Evarutil.nf_evars_and_universes evars in let fullctx = Context.map_rel_context subst fullctx in let ce t = Evarutil.check_evars env Evd.empty !evars t in let () = List.iter (fun (n, b, t) -> Option.iter ce b; ce t) fullctx in let ctx = try named_of_rel_context fullctx with e when Errors.noncritical e -> error "Anonymous variables not allowed in contexts." in let uctx = Evd.universe_context_set !evars in let fn status (id, b, t) = if Lib.is_modtype () && not (Lib.sections_are_opened ()) then let uctx = Univ.ContextSet.to_context uctx in let decl = (ParameterEntry (None,poly,(t,uctx),None), IsAssumption Logical) in let cst = Declare.declare_constant ~internal:Declare.KernelSilent id decl in match class_of_constr t with | Some (rels, ((tc,_), args) as _cl) -> add_instance (Typeclasses.new_instance tc None false (*FIXME*) poly (ConstRef cst)); status (* declare_subclasses (ConstRef cst) cl *) | None -> status else let test (x, _) = match x with | ExplByPos (_, Some id') -> Id.equal id id' | _ -> false in let impl = List.exists test impls in let decl = (Discharge, poly, Definitional) in let nstatus = pi3 (Command.declare_assumption false decl (t, uctx) [] impl Vernacexpr.NoInline (Loc.ghost, id)) in status && nstatus in List.fold_left fn true (List.rev ctx)