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Quellcode-Bibliothek© Kompilation durch diese Firma[Weder Korrektheit noch Funktionsfähigkeit der Software werden zugesichert.]Datei: Series.thy Sprache: SMLOriginal von: Coq© |
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(************************************************************************)
(* * The Coq Proof Assistant / The Coq Development Team *) (* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) (* <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) *) (************************************************************************) (* Printers for the ocaml toplevel. *) open Sorts open Util open Pp open Names open Libnames open Globnames open Univ open Environ open Printer open Constr open Context open Genarg open Clenv let _ = Detyping.print_evar_arguments := true let _ = Detyping.print_universes := true let _ = Goptions.set_bool_option_value ["Printing";"Matching"] false let _ = Detyping.set_detype_anonymous (fun ?loc _ -> raise Not_found) (* std_ppcmds *) let pp x = Pp.pp_with !Topfmt.std_ft x (** Future printer *) let ppfuture kx = pp (Future.print (fun _ -> str "_") kx) (* name printers *) let ppid id = pp (Id.print id) let pplab l = pp (Label.print l) let ppmbid mbid = pp (str (MBId.debug_to_string mbid)) let ppdir dir = pp (DirPath.print dir) let ppmp mp = pp(str (ModPath.debug_to_string mp)) let ppcon con = pp(Constant.debug_print con) let ppproj con = pp(Constant.debug_print (Projection.constant con)) let ppkn kn = pp(str (KerName.to_string kn)) let ppmind kn = pp(MutInd.debug_print kn) let ppind (kn,i) = pp(MutInd.debug_print kn ++ str"," ++int i) let ppsp sp = pp(pr_path sp) let ppqualid qid = pp(pr_qualid qid) let ppclindex cl = pp(Classops.pr_cl_index cl) let ppscheme k = pp (Ind_tables.pr_scheme_kind k) let prrecarg = function | Declarations.Norec -> str "Norec" | Declarations.Mrec (mind,i) -> str "Mrec[" ++ MutInd.print mind ++ pr_comma () ++ int i ++ str "]" | Declarations.Imbr (mind,i) -> str "Imbr[" ++ MutInd.print mind ++ pr_comma () ++ int i ++ str "]" let ppwf_paths x = pp (Rtree.pp_tree prrecarg x) let get_current_context () = try Vernacstate.Proof_global.get_current_context () with Vernacstate.Proof_global.NoCurrentProof -> let env = Global.env() in Evd.from_env env, env [@@ocaml.warning "-3"] (* term printers *) let envpp pp = let sigma,env = get_current_context () in pp env sigma let rawdebug = ref false let ppevar evk = pp (Evar.print evk) let pr_constr t = let sigma, env = get_current_context () in Printer.pr_constr_env env sigma t let pr_econstr t = let sigma, env = get_current_context () in Printer.pr_econstr_env env sigma t let ppconstr x = pp (pr_constr x) let ppeconstr x = pp (pr_econstr x) let ppconstr_expr x = let sigma,env = get_current_context () in pp (Ppconstr.pr_constr_expr let ppsconstr x = ppconstr (Mod_subst.force_constr x) let ppconstr_univ x = Constrextern.with_universes ppconstr x let ppglob_constr = (fun x -> pp(pr_lglob_constr_env (Global.env()) x)) let pppattern = (fun x -> pp(envpp pr_constr_pattern_env x)) let pptype = (fun x -> try pp(envpp pr_ltype_env x) with e -> pp (str (Printexc.to_string e))) let ppfconstr c = ppconstr (CClosure.term_of_fconstr c) let ppbigint n = pp (str (Bigint.to_string n));; let prset pr l = str "[" ++ hov 0 (prlist_with_sep spc pr l) ++ str "]" let ppintset l = pp (prset int (Int.Set.elements l)) let ppidset l = pp (prset Id.print (Id.Set.elements l)) let prset' pr l = str "[" ++ hov 0 (prlist_with_sep pr_comma pr l) ++ str "]" let pridmap pr l = let pr (id,b) = Id.print id ++ str "=>" ++ pr id b in prset' pr (Id.Map.fold (fun a b l -> (a,b)::l) l []) let ppidmap pr l = pp (pridmap pr l) let pridmapgen l = let dom = Id.Set.elements (Id.Map.domain l) in if dom = [] then str "[]" else str "[domain= " ++ hov 0 (prlist_with_sep spc Id.print dom) ++ str "]" let ppidmapgen l = pp (pridmapgen l) let ppevarsubst = ppidmap (fun id0 -> prset (fun (c,copt,id) -> hov 0 (pr_constr c ++ (match copt with None -> mt () | Some c -> spc () ++ str " pr_constr c ++ str">") ++ (if id = id0 then mt () else spc () ++ str " let prididmap = pridmap (fun _ -> Id.print) let ppididmap = ppidmap (fun _ -> Id.print) let prconstrunderbindersidmap = pridmap (fun _ (l,c) -> hov 1 (str"[" ++ prlist_with_sep spc Id.print l ++ str"]") ++ str "," ++ spc () ++ pr_econstr c) let ppconstrunderbindersidmap l = pp (prconstrunderbindersidmap l) let ppunbound_ltac_var_map l = ppidmap (fun _ arg -> str" open Ltac_pretype let rec pr_closure {idents=idents;typed=typed;untyped=untyped} = hov 1 (str"{idents=" ++ prididmap idents ++ str";" ++ spc() ++ str"typed=" ++ prconstrunderbindersidmap typed ++ str";" ++ spc() ++ str"untyped=" ++ pr_closed_glob_constr_idmap untyped ++ str"}") and pr_closed_glob_constr_idmap x = pridmap (fun _ -> pr_closed_glob_constr) x and pr_closed_glob_constr {closure=closure;term=term} = pr_closure closure ++ (pr_lglob_constr_env Global.(env ())) term let ppclosure x = pp (pr_closure x) let ppclosedglobconstr x = pp (pr_closed_glob_constr x) let ppclosedglobconstridmap x = pp (pr_closed_glob_constr_idmap x) let pP s = pp (hov 0 s) let safe_pr_global = function | ConstRef kn -> pp (str "CONSTREF(" ++ Constant.debug_print kn ++ str ")") | IndRef (kn,i) -> pp (str "INDREF(" ++ MutInd.debug_print kn ++ str "," ++ int i ++ str ")") | ConstructRef ((kn,i),j) -> pp (str "CONSTRUCTREF(" ++ MutInd.debug_print kn ++ str "," ++ int i ++ str "," ++ int j ++ str ")") | VarRef id -> pp (str "VARREF(" ++ Id.print id ++ str ")") let ppglobal x = try pp(pr_global x) with _ -> safe_pr_global x let ppconst (sp,j) = pp (str"#" ++ KerName.print sp ++ str"=" ++ envpp pr_lconstr_env j.uj_val) let ppvar ((id,a)) = pp (str"#" ++ Id.print id ++ str":" ++ envpp pr_lconstr_env a) let genppj f j = let (c,t) = f j in (c ++ str " : " ++ t) let ppj j = pp (genppj (envpp pr_ljudge_env) j) let ppsubst s = pp (Mod_subst.debug_pr_subst s) let ppdelta s = pp (Mod_subst.debug_pr_delta s) let pp_idpred s = pp (pr_idpred s) let pp_cpred s = pp (pr_cpred s) let pp_transparent_state s = pp (pr_transparent_state s) let pp_stack_t n = pp (Reductionops.Stack.pr (EConstr.of_constr %> pr_econstr) n) let pp_cst_stack_t n = pp (Reductionops.Cst_stack.pr Global.(env()) Evd.empty n) let pp_state_t n = pp (Reductionops.pr_state Global.(env()) Evd.empty n) (* proof printers *) let pr_evar ev = Pp.int (Evar.repr ev) let ppmetas metas = pp(Termops.pr_metaset metas) let ppevm evd = pp(Termops.pr_evar_map ~with_univs:!Detyping.print_universes (Some 2) (G let ppevmall evd = pp(Termops.pr_evar_map ~with_univs:!Detyping.print_universes None (G let pr_existentialset evars = prlist_with_sep spc pr_evar (Evar.Set.elements evars) let ppexistentialset evars = pp (pr_existentialset evars) let ppexistentialfilter filter = match Evd.Filter.repr filter with | None -> pp (Pp.str "ø") | Some f -> pp (prlist_with_sep spc bool f) let ppclenv clenv = pp(pr_clenv clenv) let ppgoalgoal gl = pp(Goal.pr_goal gl) let ppgoal g = pp(Printer.pr_goal g) let ppgoalsigma g = pp(Printer.pr_goal g ++ Termops.pr_evar_map None (Global.env ()) (Refin let pphintdb db = pp(envpp Hints.pr_hint_db_env db) let ppproofview p = let gls,sigma = Proofview.proofview p in pp(pr_enum Goal.pr_goal gls ++ fnl () ++ Termops.pr_evar_map (Some 1) (Global.env ()) sigma) let ppopenconstr (x : Evd.open_constr) = let (evd,c) = x in pp (Termops.pr_evar_map (Some 2) (Global.env ()) evd ++ envpp pr_econstr_en (* spiwack: deactivated until a replacement is found let pppftreestate p = pp(print_pftreestate p) *) (* let ppgoal g = pp(db_pr_goal g) *) (* let pr_gls gls = *) (* hov 0 (pr_evar_defs (sig_sig gls) ++ fnl () ++ db_pr_goal (sig_it gls)) *) (* let pr_glls glls = *) (* hov 0 (pr_evar_defs (sig_sig glls) ++ fnl () ++ *) (* prlist_with_sep fnl db_pr_goal (sig_it glls)) *) (* let ppsigmagoal g = pp(pr_goal (sig_it g)) *) (* let prgls gls = pp(pr_gls gls) *) (* let prglls glls = pp(pr_glls glls) *) let pproof p = pp(Proof.pr_proof p) let ppuni u = pp(Universe.pr u) let ppuni_level u = pp (Level.pr u) let prlev = UnivNames.pr_with_global_universes let ppuniverse_set l = pp (LSet.pr prlev l) let ppuniverse_instance l = pp (Instance.pr prlev l) let ppuniverse_context l = pp (pr_universe_context prlev l) let ppuniverse_context_set l = pp (pr_universe_context_set prlev l) let ppuniverse_subst l = pp (Univ.pr_universe_subst l) let ppuniverse_opt_subst l = pp (UnivSubst.pr_universe_opt_subst l) let ppuniverse_level_subst l = pp (Univ.pr_universe_level_subst l) let ppevar_universe_context l = pp (Termops.pr_evar_universe_context l) let ppconstraints c = pp (pr_constraints Level.pr c) let ppuniverseconstraints c = pp (UnivProblem.Set.pr c) let ppuniverse_context_future c = let ctx = Future.force c in ppuniverse_context ctx let ppuniverses u = pp (UGraph.pr_universes Level.pr u) let ppnamedcontextval e = let env = Global.env () in let sigma = Evd.from_env env in pp (pr_named_context env sigma (named_context_of_val e)) let ppenv e = pp (str "[" ++ pr_named_context_of e Evd.empty ++ str "]" ++ spc() ++ str "[" ++ pr_rel_context e Evd.empty (rel_context e) ++ str "]") let ppenvwithcst e = pp (str "[" ++ pr_named_context_of e Evd.empty ++ str "]" ++ spc() ++ str "[" ++ pr_rel_context e Evd.empty (rel_context e) ++ str "]" ++ spc() ++ str "{" ++ Environ.fold_constants (fun a _ s -> Constant.print a ++ spc () ++ s) e (mt ()) ++ str "}") let pptac = (fun x -> pp(Ltac_plugin.Pptactic.pr_glob_tactic (Global.env()) x)) let ppobj obj = Format.print_string (Libobject.object_tag obj) let cnt = ref 0 let cast_kind_display k = match k with | VMcast -> "VMcast" | DEFAULTcast -> "DEFAULTcast" | REVERTcast -> "REVERTcast" | NATIVEcast -> "NATIVEcast" let constr_display csr = let rec term_display c = match kind c with | Rel n -> "Rel("^(string_of_int n)^")" | Meta n -> "Meta("^(string_of_int n)^")" | Var id -> "Var("^(Id.to_string id)^")" | Sort s -> "Sort("^(sort_display s)^")" | Cast (c,k, t) -> "Cast("^(term_display c)^","^(cast_kind_display k)^","^(term_display t)^")" | Prod (na,t,c) -> "Prod("^(name_display na)^","^(term_display t)^","^(term_display c)^")\n" | Lambda (na,t,c) -> "Lambda("^(name_display na)^","^(term_display t)^","^(term_display c)^")\n" | LetIn (na,b,t,c) -> "LetIn("^(name_display na)^","^(term_display b)^"," ^(term_display t)^","^(term_display c)^")" | App (c,l) -> "App("^(term_display c)^","^(array_display l)^")\n" | Evar (e,l) -> "Evar("^(Pp.string_of_ppcmds (Evar.print e))^","^(array_display l)^")" | Const (c,u) -> "Const("^(Constant.to_string c)^","^(universes_display u)^")" | Ind ((sp,i),u) -> "MutInd("^(MutInd.to_string sp)^","^(string_of_int i)^","^(universes_display u)^")" | Construct (((sp,i),j),u) -> "MutConstruct(("^(MutInd.to_string sp)^","^(string_of_int i)^")," ^","^(universes_display u)^(string_of_int j)^")" | Proj (p, c) -> "Proj("^(Constant.to_string (Projection.constant p))^","^term_display c ^ | Case (ci,p,c,bl) -> "MutCase( ^(array_display bl)^")" | Fix ((t,i),(lna,tl,bl)) -> "Fix(([|"^(Array.fold_right (fun x i -> (string_of_int x)^(if not(i="") then (";"^i) else "")) t "")^"|],"^(string_of_int i)^")," ^(array_display tl)^",[|" ^(Array.fold_right (fun x i -> (name_display x)^(if not(i="") then (";"^i) else "")) lna "")^"|]," ^(array_display bl)^")" | CoFix(i,(lna,tl,bl)) -> "CoFix("^(string_of_int i)^")," ^(array_display tl)^"," ^(Array.fold_right (fun x i -> (name_display x)^(if not(i="") then (";"^i) else "")) lna "")^"," ^(array_display bl)^")" | Int i -> "Int("^(Uint63.to_string i)^")" and array_display v = "[|"^ (Array.fold_right (fun x i -> (term_display x)^(if not(i="") then (";"^i) else "")) v "")^"|]" and univ_display u = incr cnt; pp (str "with " ++ int !cnt ++ str" " ++ pr_uni u ++ fnl ()) and level_display u = incr cnt; pp (str "with " ++ int !cnt ++ str" " ++ Level.pr u ++ fnl ()) and sort_display = function | SProp -> "SProp" | Set -> "Set" | Prop -> "Prop" | Type u -> univ_display u; "Type("^(string_of_int !cnt)^")" and universes_display l = Array.fold_right (fun x i -> level_display x; (string_of_int !cnt)^(if not(i="") then (" "^i) else "")) (Instance.to_array l) "" and name_display x = match x.binder_name with | Name id -> "Name("^(Id.to_string id)^")" | Anonymous -> "Anonymous" in pp (str (term_display csr) ++fnl ()) let econstr_display c = constr_display EConstr.Unsafe.(to_constr c) ;; open Format;; let print_pure_constr csr = let rec term_display c = match Constr.kind c with | Rel n -> print_string "#"; print_int n | Meta n -> print_string "Meta("; print_int n; print_string ")" | Var id -> print_string (Id.to_string id) | Sort s -> sort_display s | Cast (c,_, t) -> open_hovbox 1; print_string "("; (term_display c); print_cut(); print_string "::"; (term_display t); print_string ")"; close_box() | Prod ({binder_name=Name(id)},t,c) -> open_hovbox 1; print_string"("; print_string (Id.to_string id); print_string ":"; box_display t; print_string ")"; print_cut(); box_display c; close_box() | Prod ({binder_name=Anonymous},t,c) -> print_string"("; box_display t; print_cut(); print_string "->"; box_display c; print_string ")"; | Lambda (na,t,c) -> print_string "["; name_display na; print_string ":"; box_display t; print_string "]"; print_cut(); box_display c; | LetIn (na,b,t,c) -> print_string "["; name_display na; print_string "="; box_display b; print_cut(); print_string ":"; box_display t; print_string "]"; print_cut(); box_display c; | App (c,l) -> print_string "("; box_display c; Array.iter (fun x -> print_space (); box_display x) l; print_string ")" | Evar (e,l) -> print_string "Evar#"; print_int (Evar.repr e); print_string "{"; Array.iter (fun x -> print_space (); box_display x) l; print_string"}" | Const (c,u) -> print_string "Cons("; sp_con_display c; print_string ","; universes_display u; print_string ")" | Proj (p,c') -> print_string "Proj("; sp_con_display (Projection.constant p); print_string ","; box_display c'; print_string ")" | Ind ((sp,i),u) -> print_string "Ind("; sp_display sp; print_string ","; print_int i; print_string ","; universes_display u; print_string ")" | Construct (((sp,i),j),u) -> print_string "Constr("; sp_display sp; print_string ","; print_int i; print_string ","; print_int j; print_string ","; universes_display u; print_string ")" | Case (ci,p,c,bl) -> open_vbox 0; print_string "<"; box_display p; print_string ">"; print_cut(); print_string "Case"; print_space(); box_display c; print_space (); print_string "of"; open_vbox 0; Array.iter (fun x -> print_cut(); box_display x) bl; close_box(); print_cut(); print_string "end"; close_box() | Fix ((t,i),(lna,tl,bl)) -> print_string "Fix("; print_int i; print_string ")"; print_cut(); open_vbox 0; let print_fix () = for k = 0 to (Array.length tl) - 1 do open_vbox 0; name_display lna.(k); print_string "/"; print_int t.(k); print_cut(); print_string ":"; box_display tl.(k) ; print_cut(); print_string ":="; box_display bl.(k); close_box (); print_cut() done in print_string"{"; print_fix(); print_string"}" | CoFix(i,(lna,tl,bl)) -> print_string "CoFix("; print_int i; print_string ")"; print_cut(); open_vbox 0; let print_fix () = for k = 0 to (Array.length tl) - 1 do open_vbox 1; name_display lna.(k); print_cut(); print_string ":"; box_display tl.(k) ; print_cut(); print_string ":="; box_display bl.(k); close_box (); print_cut(); done in print_string"{"; print_fix (); print_string"}" | Int i -> print_string ("Int("^(Uint63.to_string i)^")") and box_display c = open_hovbox 1; term_display c; close_box() and universes_display u = Array.iter (fun u -> print_space (); pp (Level.pr u)) (Instance.to_array u) and sort_display = function | SProp -> print_string "SProp" | Set -> print_string "Set" | Prop -> print_string "Prop" | Type u -> open_hbox(); print_string "Type("; pp (pr_uni u); print_string ")"; close_box() and name_display x = match x.binder_name with | Name id -> print_string (Id.to_string id) | Anonymous -> print_string "_" (* Remove the top names for library and Scratch to avoid long names *) and sp_display sp = (* let dir,l = decode_kn sp in let ls = match List.rev_map Id.to_string (DirPath.repr dir) with ("Top"::l)-> l | ("Coq"::_::l) -> l | l -> l in List.iter (fun x -> print_string x; print_string ".") ls;*) print_string (MutInd.debug_to_string sp) and sp_con_display sp = (* let dir,l = decode_kn sp in let ls = match List.rev_map Id.to_string (DirPath.repr dir) with ("Top"::l)-> l | ("Coq"::_::l) -> l | l -> l in List.iter (fun x -> print_string x; print_string ".") ls;*) print_string (Constant.debug_to_string sp) in try box_display csr; print_flush() with e -> print_string (Printexc.to_string e);print_flush (); raise e let print_pure_econstr c = print_pure_constr EConstr.Unsafe.(to_constr c) ;; let pploc x = let (l,r) = Loc.unloc x in print_string"(";print_int l;print_string",";print_int r;print_string")" let pp_argument_type t = pp (pr_argument_type t) let pp_generic_argument arg = pp(str" let prgenarginfo arg = let Geninterp.Val.Dyn (tag, _) = arg in let tpe = Geninterp.Val.pr tag in (* FIXME *) (* try *) (* let data = Pptactic.pr_top_generic (Global.env ()) arg in *) (* str "<genarg:" ++ tpe ++ str " := [ " ++ data ++ str " ] >" *) (* with _any -> *) str " let ppgenarginfo arg = pp (prgenarginfo arg) let ppgenargargt arg = pp (str (Genarg.ArgT.repr arg)) let ppist ist = let pr id arg = prgenarginfo arg in pp (pridmap pr ist.Geninterp.lfun) (**********************************************************************) (* Vernac-level debugging commands *) let in_current_context f c = let (evmap,sign) = get_current_context () in f (fst (Constrintern.interp_constr sign evmap c))(*FIXME*) (* We expand the result of preprocessing to be independent of camlp5 VERNAC COMMAND EXTEND PrintPureConstr | [ "PrintPureConstr" constr(c) ] -> [ in_current_context print_pure_constr c ] END VERNAC COMMAND EXTEND PrintConstr [ "PrintConstr" constr(c) ] -> [ in_current_context constr_display c ] END *) let _ = let open Vernacextend in let ty_constr = Extend.TUentry (get_arg_tag Stdarg.wit_constr) in let cmd_sig = TyTerminal("PrintConstr", TyNonTerminal(ty_constr, TyNil)) in let cmd_fn c ~atts ~st = in_current_context econstr_display c; st in let cmd_class _ = VtQuery,VtNow in let cmd : ty_ml = TyML (false, cmd_sig, cmd_fn, Some cmd_class) in vernac_extend ~command:"PrintConstr" [cmd] let _ = let open Vernacextend in let ty_constr = Extend.TUentry (get_arg_tag Stdarg.wit_constr) in let cmd_sig = TyTerminal("PrintPureConstr", TyNonTerminal(ty_constr, TyNil)) in let cmd_fn c ~atts ~st = in_current_context print_pure_econstr c; st in let cmd_class _ = VtQuery,VtNow in let cmd : ty_ml = TyML (false, cmd_sig, cmd_fn, Some cmd_class) in vernac_extend ~command:"PrintPureConstr" [cmd] (* Setting printer of unbound global reference *) open Names open Libnames let encode_path ?loc prefix mpdir suffix id = let dir = match mpdir with | None -> [] | Some mp -> DirPath.repr (dirpath_of_string (ModPath.to_string mp)) in make_qualid ?loc (DirPath.make (List.rev (Id.of_string prefix::dir@suffix))) id let raw_string_of_ref ?loc _ = function | ConstRef cst -> let (mp,id) = Constant.repr2 cst in encode_path ?loc "CST" (Some mp) [] (Label.to_id id) | IndRef (kn,i) -> let (mp,id) = MutInd.repr2 kn in encode_path ?loc "IND" (Some mp) [Label.to_id id] (Id.of_string ("_"^string_of_int i)) | ConstructRef ((kn,i),j) -> let (mp,id) = MutInd.repr2 kn in encode_path ?loc "CSTR" (Some mp) [Label.to_id id;Id.of_string ("_"^string_of_int i)] (Id.of_string ("_"^string_of_int j)) | VarRef id -> encode_path ?loc "SECVAR" None [] id let short_string_of_ref ?loc _ = function | VarRef id -> qualid_of_ident ?loc id | ConstRef cst -> qualid_of_ident ?loc (Label.to_id (Constant.label cst)) | IndRef (kn,0) -> qualid_of_ident ?loc (Label.to_id (MutInd.label kn)) | IndRef (kn,i) -> encode_path ?loc "IND" None [Label.to_id (MutInd.label kn)] (Id.of_string ("_"^string_of_int i)) | ConstructRef ((kn,i),j) -> encode_path ?loc "CSTR" None [Label.to_id (MutInd.label kn);Id.of_string ("_"^string_of_int i)] (Id.of_string ("_"^string_of_int j)) (* Anticipate that printers can be used from ocamldebug and that pretty-printer should not make calls to the global env since ocamldebug runs in a different process and does not have the proper env at hand *) let _ = Flags.in_debugger := true let _ = Constrextern.set_extern_reference (if !rawdebug then raw_string_of_ref else short_string_of_ref) ¤ Dauer der Verarbeitung: 0.9 Sekunden (vorverarbeitet) ¤ |
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