(* $Id$ *) open Util open Names open Generic open Term open Sign open Constant open Inductive open Reduction open Libobject open Lib open Impargs open Indrec type strength = | DischargeAt of section_path | NeverDischarge let make_strength = function | [] -> NeverDischarge | l -> DischargeAt (sp_of_wd l) (* Variables. *) let cache_variable (_,obj) = Global.push_var obj let load_variable _ = anomaly "we shouldn't load a variable" let open_variable _ = anomaly "we shouldn't open a variable" let specification_variable _ = anomaly "we shouldn't extract the specification of a variable" let (in_variable, out_variable) = let od = { cache_function = cache_variable; load_function = load_variable; open_function = open_variable; specification_function = specification_variable } in declare_object ("VARIABLE", od) let declare_variable id c = let obj = (id,c) in Global.push_var obj; let _ = add_leaf id CCI (in_variable obj) in () (* Parameters. *) let cache_parameter (sp,c) = Global.add_parameter sp c; Nametab.push (basename sp) sp let open_parameter (sp,_) = Nametab.push (basename sp) sp let specification_parameter obj = obj let (in_parameter, out_parameter) = let od = { cache_function = cache_parameter; load_function = (fun _ -> ()); open_function = open_parameter; specification_function = specification_parameter } in declare_object ("PARAMETER", od) let declare_parameter id c = let sp = add_leaf id CCI (in_parameter c) in Global.add_parameter sp c; Nametab.push (basename sp) sp (* Constants. *) let cache_constant (sp,ce) = Global.add_constant sp ce; Nametab.push (basename sp) sp; declare_constant_implicits sp let open_constant (sp,_) = Nametab.push (basename sp) sp; declare_constant_implicits sp let specification_constant obj = obj let (in_constant, out_constant) = let od = { cache_function = cache_constant; load_function = (fun _ -> ()); open_function = open_constant; specification_function = specification_constant } in declare_object ("CONSTANT", od) let declare_constant id ce = let sp = add_leaf id CCI (in_constant ce) in Global.add_constant sp ce; Nametab.push (basename sp) sp; declare_constant_implicits sp (* Inductives. *) let push_inductive_names sp mie = List.iter (fun (id,_,cnames,_) -> Nametab.push id sp; List.iter (fun x -> Nametab.push x sp) cnames) mie.mind_entry_inds let cache_inductive (sp,mie) = Global.add_mind sp mie; push_inductive_names sp mie; declare_inductive_implicits sp let open_inductive (sp,mie) = push_inductive_names sp mie; declare_inductive_implicits sp let specification_inductive obj = obj let (in_inductive, out_inductive) = let od = { cache_function = cache_inductive; load_function = (fun _ -> ()); open_function = open_inductive; specification_function = specification_inductive } in declare_object ("INDUCTIVE", od) let declare_mind mie = let id = match mie.mind_entry_inds with | (id,_,_,_)::_ -> id | [] -> anomaly "cannot declare an empty list of inductives" in let sp = add_leaf id CCI (in_inductive mie) in Global.add_mind sp mie; push_inductive_names sp mie; declare_inductive_implicits sp (* Syntax constants. *) let syntax_table = ref (Idmap.empty : constr Idmap.t) let _ = Summary.declare_summary "SYNTAXCONSTANT" { Summary.freeze_function = (fun () -> !syntax_table); Summary.unfreeze_function = (fun ft -> syntax_table := ft); Summary.init_function = (fun () -> syntax_table := Idmap.empty) } let add_syntax_constant id c = syntax_table := Idmap.add id c !syntax_table let cache_syntax_constant (sp,c) = add_syntax_constant (basename sp) c; Nametab.push (basename sp) sp let open_syntax_constant (sp,_) = Nametab.push (basename sp) sp let (in_syntax_constant, out_syntax_constant) = let od = { cache_function = cache_syntax_constant; load_function = (fun _ -> ()); open_function = open_syntax_constant; specification_function = (fun x -> x) } in declare_object ("SYNTAXCONSTANT", od) let declare_syntax_constant id c = let sp = add_leaf id CCI (in_syntax_constant c) in add_syntax_constant id c; Nametab.push (basename sp) sp let out_syntax_constant id = Idmap.find id !syntax_table (* Test and access functions. *) let is_constant sp = failwith "TODO" let constant_strength sp = failwith "TODO" let is_variable id = failwith "TODO" let out_variable sp = failwith "TODO" let variable_strength id = failwith "TODO" (* Global references. *) let first f v = let n = Array.length v in let rec look_for i = if i = n then raise Not_found; try f i v.(i) with Not_found -> look_for (succ i) in look_for 0 let mind_oper_of_id sp id mib = first (fun tyi mip -> if id = mip.mind_typename then MutInd (sp,tyi) else first (fun cj cid -> if id = cid then MutConstruct((sp,tyi),succ cj) else raise Not_found) mip.mind_consnames) mib.mind_packets let global_operator sp id = try let cb = Global.lookup_constant sp in Const sp, cb.const_hyps with Not_found -> let mib = Global.lookup_mind sp in mind_oper_of_id sp id mib, mib.mind_hyps let global_reference kind id = let sp = Nametab.sp_of_id kind id in let (oper,_) = global_operator sp id in let hyps = Global.var_context () in let ids = ids_of_sign hyps in DOPN(oper, Array.of_list (List.map (fun id -> VAR id) ids)) let global_reference_imps kind id = let c = global_reference kind id in match c with | DOPN (Const sp,_) -> c, list_of_implicits (constant_implicits sp) | DOPN (MutInd (sp,i),_) -> c, list_of_implicits (inductive_implicits (sp,i)) | DOPN (MutConstruct ((sp,i),j),_) -> c, list_of_implicits (constructor_implicits ((sp,i),j)) | _ -> assert false let is_global id = try let osp = Nametab.sp_of_id CCI id in list_prefix_of (dirpath osp) (Lib.cwd()) with Not_found -> false let mind_path = function | DOPN(MutInd (sp,0),_) -> sp | DOPN(MutInd (sp,tyi),_) -> let mib = Global.lookup_mind sp in let mip = mind_nth_type_packet mib tyi in let (pa,_,k) = repr_path sp in Names.make_path pa (mip.mind_typename) k | DOPN(MutConstruct ((sp,tyi),ind),_) -> let mib = Global.lookup_mind sp in let mip = mind_nth_type_packet mib tyi in let (pa,_,k) = repr_path sp in Names.make_path pa (mip.mind_consnames.(ind-1)) k | _ -> invalid_arg "mind_path" (* Eliminations. *) let declare_eliminations sp = let env = Global.env () in let sigma = Evd.empty in let mindid = basename sp in let mind = global_reference (kind_of_path sp) mindid in let redmind = minductype_spec env sigma mind in let mindstr = string_of_id mindid in let declare na c = declare_constant (id_of_string na) { const_entry_body = c; const_entry_type = None } in let mispec = Global.lookup_mind_specif redmind in let elim_scheme = strip_all_casts (mis_make_indrec env sigma [] mispec).(0) in let npars = mis_nparams mispec in let make_elim s = instanciate_indrec_scheme s npars elim_scheme in let kelim = mis_kelim mispec in if List.mem prop kelim then declare (mindstr^"_ind") (make_elim prop); if List.mem spec kelim then declare (mindstr^"_rec") (make_elim spec); if List.mem types kelim then declare (mindstr^"_rect") (make_elim (Type (Univ.new_univ sp)))