open Printf open MatitaTypes exception Drop;; let debug = false ;; let debug_print = if debug then prerr_endline else ignore ;; (** create a ProofEngineTypes.mk_fresh_name_type function which uses given * names as long as they are available, then it fallbacks to name generation * using FreshNamesGenerator module *) let namer_of names = let len = List.length names in let count = ref 0 in fun metasenv context name ~typ -> if !count < len then begin let name = Cic.Name (List.nth names !count) in incr count; name end else FreshNamesGenerator.mk_fresh_name ~subst:[] metasenv context name ~typ let tactic_of_ast = function | TacticAst.Absurd (_, term) -> Tactics.absurd term | TacticAst.Apply (_, term) -> Tactics.apply term | TacticAst.Assumption _ -> Tactics.assumption | TacticAst.Auto (_,depth,width) -> AutoTactic.auto_tac ?depth ?width ~dbd:(MatitaDb.instance ()) () | TacticAst.Change (_, pattern, with_what) -> Tactics.change ~pattern with_what | TacticAst.Clear (_,id) -> Tactics.clear id | TacticAst.ClearBody (_,id) -> Tactics.clearbody id | TacticAst.Contradiction _ -> Tactics.contradiction | TacticAst.Compare (_, term) -> Tactics.compare term | TacticAst.Constructor (_, n) -> Tactics.constructor n | TacticAst.Cut (_, ident, term) -> let names = match ident with None -> [] | Some id -> [id] in Tactics.cut ~mk_fresh_name_callback:(namer_of names) term | TacticAst.DecideEquality _ -> Tactics.decide_equality | TacticAst.Decompose (_,term) -> Tactics.decompose term | TacticAst.Discriminate (_,term) -> Tactics.discriminate term | TacticAst.Elim (_, term, _) -> Tactics.elim_intros term | TacticAst.ElimType (_, term) -> Tactics.elim_type term | TacticAst.Exact (_, term) -> Tactics.exact term | TacticAst.Exists _ -> Tactics.exists | TacticAst.Fail _ -> Tactics.fail | TacticAst.Fold (_, reduction_kind, pattern) -> let reduction = match reduction_kind with | `Normalize -> CicReduction.normalize ~delta:false ~subst:[] | `Reduce -> ProofEngineReduction.reduce | `Simpl -> ProofEngineReduction.simpl | `Whd -> CicReduction.whd ~delta:false ~subst:[] in Tactics.fold ~reduction ~pattern | TacticAst.Fourier _ -> Tactics.fourier | TacticAst.FwdSimpl (_, term) -> Tactics.fwd_simpl ~what:term ~dbd:(MatitaDb.instance ()) | TacticAst.Generalize (_,pattern,ident) -> let names = match ident with None -> [] | Some id -> [id] in Tactics.generalize ~mk_fresh_name_callback:(namer_of names) pattern | TacticAst.Goal (_, n) -> Tactics.set_goal n | TacticAst.IdTac _ -> Tactics.id | TacticAst.Injection (_,term) -> Tactics.injection term | TacticAst.Intros (_, None, names) -> PrimitiveTactics.intros_tac ~mk_fresh_name_callback:(namer_of names) () | TacticAst.Intros (_, Some num, names) -> PrimitiveTactics.intros_tac ~howmany:num ~mk_fresh_name_callback:(namer_of names) () | TacticAst.LApply (_, to_what, what, ident) -> let names = match ident with None -> [] | Some id -> [id] in Tactics.lapply ~mk_fresh_name_callback:(namer_of names) ?to_what what | TacticAst.Left _ -> Tactics.left | TacticAst.LetIn (loc,term,name) -> Tactics.letin term ~mk_fresh_name_callback:(namer_of [name]) | TacticAst.Reduce (_, reduction_kind, pattern) -> (match reduction_kind with | `Normalize -> Tactics.normalize ~pattern | `Reduce -> Tactics.reduce ~pattern | `Simpl -> Tactics.simpl ~pattern | `Whd -> Tactics.whd ~pattern) | TacticAst.Reflexivity _ -> Tactics.reflexivity | TacticAst.Replace (_, pattern, with_what) -> Tactics.replace ~pattern ~with_what | TacticAst.Rewrite (_, direction, t, pattern) -> EqualityTactics.rewrite_tac ~direction ~pattern t | TacticAst.Right _ -> Tactics.right | TacticAst.Ring _ -> Tactics.ring | TacticAst.Split _ -> Tactics.split | TacticAst.Symmetry _ -> Tactics.symmetry | TacticAst.Transitivity (_, term) -> Tactics.transitivity term let eval_tactical status tac = let apply_tactic tactic = let (proof, goals) = ProofEngineTypes.apply_tactic tactic (MatitaMisc.get_proof_status status) in let new_status = match goals with | [] -> let (_,metasenv,_,_) = proof in (match metasenv with | [] -> Proof proof | (ng,_,_)::_ -> Incomplete_proof (proof,ng)) | ng::_ -> Incomplete_proof (proof, ng) in { status with proof_status = new_status } in let rec tactical_of_ast = function | TacticAst.Tactic (loc, tactic) -> tactic_of_ast tactic | TacticAst.Do (loc, num, tactical) -> Tacticals.do_tactic num (tactical_of_ast tactical) | TacticAst.Repeat (loc, tactical) -> Tacticals.repeat_tactic (tactical_of_ast tactical) | TacticAst.Seq (loc, tacticals) -> (* tac1; tac2; ... *) Tacticals.seq (List.map tactical_of_ast tacticals) | TacticAst.Then (loc, tactical, tacticals) -> (* tac; [ tac1 | ... ] *) Tacticals.thens (tactical_of_ast tactical) (List.map tactical_of_ast tacticals) | TacticAst.Tries (loc, tacticals) -> Tacticals.try_tactics (List.map (fun t -> "", tactical_of_ast t) tacticals) | TacticAst.Try (loc, tactical) -> Tacticals.try_tactic (tactical_of_ast tactical) in apply_tactic (tactical_of_ast tac) let eval_coercion status coercion = let coer_uri,coer_ty = match coercion with | Cic.Const (uri,_) | Cic.Var (uri,_) -> let o,_ = CicEnvironment.get_obj CicUniv.empty_ugraph uri in (match o with | Cic.Constant (_,_,ty,_,_) | Cic.Variable (_,_,ty,_,_) -> uri,ty | _ -> assert false) | Cic.MutConstruct (uri,t,c,_) -> let o,_ = CicEnvironment.get_obj CicUniv.empty_ugraph uri in (match o with | Cic.InductiveDefinition (l,_,_,_) -> let (_,_,_,cl) = List.nth l t in let (_,cty) = List.nth cl c in uri,cty | _ -> assert false) | _ -> assert false in (* we have to get the source and the tgt type uri * in Coq syntax we have already their names, but * since we don't support Funclass and similar I think * all the coercion should be of the form * (A:?)(B:?)T1->T2 * So we should be able to extract them from the coercion type *) let extract_last_two_p ty = let rec aux = function | Cic.Prod( _, src, Cic.Prod (n,t1,t2)) -> aux (Cic.Prod(n,t1,t2)) | Cic.Prod( _, src, tgt) -> src, tgt | _ -> assert false in aux ty in let ty_src,ty_tgt = extract_last_two_p coer_ty in let context = [] in let src_uri = let ty_src = CicReduction.whd context ty_src in CicUtil.uri_of_term ty_src in let tgt_uri = let ty_tgt = CicReduction.whd context ty_tgt in CicUtil.uri_of_term ty_tgt in let new_coercions = (* also adds them to the Db *) CoercGraph.close_coercion_graph src_uri tgt_uri coer_uri in let status = List.fold_left (fun s (uri,o,ugraph) -> MatitaSync.add_obj uri o status) status new_coercions in {status with proof_status = No_proof} let generate_elimination_principles uri status = let elim sort status = try let uri,obj = CicElim.elim_of ~sort uri 0 in MatitaSync.add_obj uri obj status with CicElim.Can_t_eliminate -> status in List.fold_left (fun status sort -> elim sort status) status [ Cic.Prop; Cic.Set; (Cic.Type (CicUniv.fresh ())) ] let generate_projections uri fields status = let projections = CicRecord.projections_of uri fields in List.fold_left (fun status (uri, name, bo) -> try let ty, ugraph = CicTypeChecker.type_of_aux' [] [] bo CicUniv.empty_ugraph in let bo = Unshare.unshare bo in let ty = Unshare.unshare ty in let attrs = [`Class `Projection; `Generated] in let obj = Cic.Constant (name,Some bo,ty,[],attrs) in MatitaSync.add_obj uri obj status with CicTypeChecker.TypeCheckerFailure s -> MatitaLog.message ("Unable to create projection " ^ name ^ " cause: " ^ s); status | CicEnvironment.Object_not_found uri -> let depend = UriManager.name_of_uri uri in MatitaLog.message ("Unable to create projection " ^ name ^ " because it requires " ^ depend); status ) status projections let eval_command status cmd = match cmd with | TacticAst.Set (loc, name, value) -> let value = if name = "baseuri" then MatitaMisc.strip_trailing_slash value else value in set_option status name value | TacticAst.Drop loc -> raise Drop | TacticAst.Qed loc -> let uri, metasenv, bo, ty = match status.proof_status with | Proof (Some uri, metasenv, body, ty) -> uri, metasenv, body, ty | Proof (None, metasenv, body, ty) -> command_error ("Someone allows to start a thm without giving the "^ "name/uri. This should be fixed!") | _-> command_error "You can't qed an uncomplete theorem" in let suri = UriManager.string_of_uri uri in if metasenv <> [] then command_error "Proof not completed! metasenv is not empty!"; let name = UriManager.name_of_uri uri in let obj = Cic.Constant (name,Some bo,ty,[],[]) in MatitaSync.add_obj uri obj status | TacticAst.Coercion (loc, coercion) -> eval_coercion status coercion | TacticAst.Alias (loc, spec) -> (match spec with | TacticAst.Ident_alias (id,uri) -> {status with aliases = DisambiguateTypes.Environment.add (DisambiguateTypes.Id id) ("boh?",(fun _ _ _ -> CicUtil.term_of_uri (UriManager.uri_of_string uri))) status.aliases } | TacticAst.Symbol_alias (symb, instance, desc) -> {status with aliases = DisambiguateTypes.Environment.add (DisambiguateTypes.Symbol (symb,instance)) (DisambiguateChoices.lookup_symbol_by_dsc symb desc) status.aliases } | TacticAst.Number_alias (instance,desc) -> {status with aliases = DisambiguateTypes.Environment.add (DisambiguateTypes.Num instance) (DisambiguateChoices.lookup_num_by_dsc desc) status.aliases }) | TacticAst.Obj (loc,obj) -> let ext,name = match obj with Cic.Constant (name,_,_,_,_) | Cic.CurrentProof (name,_,_,_,_,_) -> ".con",name | Cic.InductiveDefinition (types,_,_,_) -> ".ind", (match types with (name,_,_,_)::_ -> name | _ -> assert false) | _ -> assert false in let uri = UriManager.uri_of_string (MatitaMisc.qualify status name ^ ext) in let metasenv = MatitaMisc.get_proof_metasenv status in match obj with Cic.CurrentProof (_,metasenv',bo,ty,_,_) -> assert (metasenv = metasenv'); let goalno = match metasenv' with (goalno,_,_)::_ -> goalno | _ -> assert false in let initial_proof = (Some uri, metasenv, bo, ty) in { status with proof_status = Incomplete_proof (initial_proof,goalno)} | _ -> if metasenv <> [] then command_error ( "metasenv not empty while giving a definition with body: " ^ CicMetaSubst.ppmetasenv metasenv []); let status = MatitaSync.add_obj uri obj status in match obj with Cic.Constant _ -> status | Cic.InductiveDefinition (_,_,_,attrs) -> let status = generate_elimination_principles uri status in let rec get_record_attrs = function [] -> None | (`Class (`Record fields))::_ -> Some fields | _::tl -> get_record_attrs tl in (match get_record_attrs attrs with None -> status (* not a record *) | Some fields -> generate_projections uri fields status) | Cic.CurrentProof _ | Cic.Variable _ -> assert false let eval_executable status ex = match ex with | TacticAst.Tactical (_, tac) -> eval_tactical status tac | TacticAst.Command (_, cmd) -> eval_command status cmd | TacticAst.Macro (_, mac) -> command_error (sprintf "The macro %s can't be in a script" (TacticAstPp.pp_macro_cic mac)) let eval_comment status c = status let eval status st = match st with | TacticAst.Executable (_,ex) -> eval_executable status ex | TacticAst.Comment (_,c) -> eval_comment status c let disambiguate_term status term = let (aliases, metasenv, cic, _) = match MatitaDisambiguator.disambiguate_term ~dbd:(MatitaDb.instance ()) ~aliases:(status.aliases) ~context:(MatitaMisc.get_proof_context status) ~metasenv:(MatitaMisc.get_proof_metasenv status) term with | [x] -> x | _ -> assert false in let proof_status = match status.proof_status with | No_proof -> Intermediate metasenv | Incomplete_proof ((uri, _, proof, ty), goal) -> Incomplete_proof ((uri, metasenv, proof, ty), goal) | Intermediate _ -> Intermediate metasenv | Proof _ -> assert false in let status = { status with aliases = aliases; proof_status = proof_status } in status, cic let disambiguate_obj status obj = let uri = match obj with TacticAst.Inductive (_,(name,_,_,_)::_) | TacticAst.Record (_,name,_,_) -> Some (UriManager.uri_of_string (MatitaMisc.qualify status name ^ ".ind")) | TacticAst.Inductive _ -> assert false | _ -> None in let (aliases, metasenv, cic, _) = match MatitaDisambiguator.disambiguate_obj ~dbd:(MatitaDb.instance ()) ~aliases:(status.aliases) ~uri obj with | [x] -> x | _ -> assert false in let proof_status = match status.proof_status with | No_proof -> Intermediate metasenv | Incomplete_proof _ | Intermediate _ | Proof _ -> assert false in let status = { status with aliases = aliases; proof_status = proof_status } in status, cic let disambiguate_pattern status (wanted, hyp_paths, goal_path) = let interp path = Disambiguate.interpretate_path [] status.aliases path in let goal_path = interp goal_path in let hyp_paths = List.map (fun (name, path) -> name, interp path) hyp_paths in let status,wanted = match wanted with None -> status,None | Some wanted -> let status,wanted = disambiguate_term status wanted in status, Some wanted in status, (wanted, hyp_paths ,goal_path) let disambiguate_tactic status = function | TacticAst.Apply (loc, term) -> let status, cic = disambiguate_term status term in status, TacticAst.Apply (loc, cic) | TacticAst.Absurd (loc, term) -> let status, cic = disambiguate_term status term in status, TacticAst.Absurd (loc, cic) | TacticAst.Assumption loc -> status, TacticAst.Assumption loc | TacticAst.Auto (loc,depth,width) -> status, TacticAst.Auto (loc,depth,width) | TacticAst.Change (loc, pattern, with_what) -> let status, with_what = disambiguate_term status with_what in let status, pattern = disambiguate_pattern status pattern in status, TacticAst.Change (loc, pattern, with_what) | TacticAst.Clear (loc,id) -> status,TacticAst.Clear (loc,id) | TacticAst.ClearBody (loc,id) -> status,TacticAst.ClearBody (loc,id) | TacticAst.Compare (loc,term) -> let status, term = disambiguate_term status term in status, TacticAst.Compare (loc,term) | TacticAst.Constructor (loc,n) -> status, TacticAst.Constructor (loc,n) | TacticAst.Contradiction loc -> status, TacticAst.Contradiction loc | TacticAst.Cut (loc, ident, term) -> let status, cic = disambiguate_term status term in status, TacticAst.Cut (loc, ident, cic) | TacticAst.DecideEquality loc -> status, TacticAst.DecideEquality loc | TacticAst.Decompose (loc,term) -> let status,term = disambiguate_term status term in status, TacticAst.Decompose(loc,term) | TacticAst.Discriminate (loc,term) -> let status,term = disambiguate_term status term in status, TacticAst.Discriminate(loc,term) | TacticAst.Exact (loc, term) -> let status, cic = disambiguate_term status term in status, TacticAst.Exact (loc, cic) | TacticAst.Elim (loc, term, Some term') -> let status, cic1 = disambiguate_term status term in let status, cic2 = disambiguate_term status term' in status, TacticAst.Elim (loc, cic1, Some cic2) | TacticAst.Elim (loc, term, None) -> let status, cic = disambiguate_term status term in status, TacticAst.Elim (loc, cic, None) | TacticAst.ElimType (loc, term) -> let status, cic = disambiguate_term status term in status, TacticAst.ElimType (loc, cic) | TacticAst.Exists loc -> status, TacticAst.Exists loc | TacticAst.Fail loc -> status,TacticAst.Fail loc | TacticAst.Fold (loc,reduction_kind, pattern) -> let status, pattern = disambiguate_pattern status pattern in status, TacticAst.Fold (loc,reduction_kind, pattern) | TacticAst.FwdSimpl (loc, term) -> let status, term = disambiguate_term status term in status, TacticAst.FwdSimpl (loc, term) | TacticAst.Fourier loc -> status, TacticAst.Fourier loc | TacticAst.Generalize (loc,pattern,ident) -> let status, pattern = disambiguate_pattern status pattern in status, TacticAst.Generalize(loc,pattern,ident) | TacticAst.Goal (loc, g) -> status, TacticAst.Goal (loc, g) | TacticAst.IdTac loc -> status,TacticAst.IdTac loc | TacticAst.Injection (loc,term) -> let status, term = disambiguate_term status term in status, TacticAst.Injection (loc,term) | TacticAst.Intros (loc, num, names) -> status, TacticAst.Intros (loc, num, names) | TacticAst.LApply (loc, to_what, what, ident) -> let status, to_what = match to_what with None -> status,None | Some to_what -> let status, to_what = disambiguate_term status to_what in status, Some to_what in let status, what = disambiguate_term status what in status, TacticAst.LApply (loc, to_what, what, ident) | TacticAst.Left loc -> status, TacticAst.Left loc | TacticAst.LetIn (loc, term, name) -> let status, term = disambiguate_term status term in status, TacticAst.LetIn (loc,term,name) | TacticAst.Reduce (loc, reduction_kind, pattern) -> let status, pattern = disambiguate_pattern status pattern in status, TacticAst.Reduce(loc, reduction_kind, pattern) | TacticAst.Reflexivity loc -> status, TacticAst.Reflexivity loc | TacticAst.Replace (loc, pattern, with_what) -> let status, pattern = disambiguate_pattern status pattern in let status, with_what = disambiguate_term status with_what in status, TacticAst.Replace (loc, pattern, with_what) | TacticAst.Rewrite (loc, dir, t, pattern) -> let status, term = disambiguate_term status t in let status, pattern = disambiguate_pattern status pattern in status, TacticAst.Rewrite (loc, dir, term, pattern) | TacticAst.Right loc -> status, TacticAst.Right loc | TacticAst.Ring loc -> status, TacticAst.Ring loc | TacticAst.Split loc -> status, TacticAst.Split loc | TacticAst.Symmetry loc -> status, TacticAst.Symmetry loc | TacticAst.Transitivity (loc, term) -> let status, cic = disambiguate_term status term in status, TacticAst.Transitivity (loc, cic) let rec disambiguate_tactical status = function | TacticAst.Tactic (loc, tactic) -> let status, tac = disambiguate_tactic status tactic in status, TacticAst.Tactic (loc, tac) | TacticAst.Do (loc, num, tactical) -> let status, tac = disambiguate_tactical status tactical in status, TacticAst.Do (loc, num, tac) | TacticAst.Repeat (loc, tactical) -> let status, tac = disambiguate_tactical status tactical in status, TacticAst.Repeat (loc, tac) | TacticAst.Seq (loc, tacticals) -> (* tac1; tac2; ... *) let status, tacticals = disambiguate_tacticals status tacticals in let tacticals = List.rev tacticals in status, TacticAst.Seq (loc, tacticals) | TacticAst.Then (loc, tactical, tacticals) -> (* tac; [ tac1 | ... ] *) let status, tactical = disambiguate_tactical status tactical in let status, tacticals = disambiguate_tacticals status tacticals in status, TacticAst.Then (loc, tactical, tacticals) | TacticAst.Tries (loc, tacticals) -> let status, tacticals = disambiguate_tacticals status tacticals in status, TacticAst.Tries (loc, tacticals) | TacticAst.Try (loc, tactical) -> let status, tactical = disambiguate_tactical status tactical in status, TacticAst.Try (loc, tactical) and disambiguate_tacticals status tacticals = let status, tacticals = List.fold_left (fun (status, tacticals) tactical -> let status, tac = disambiguate_tactical status tactical in status, tac :: tacticals) (status, []) tacticals in let tacticals = List.rev tacticals in status, tacticals let disambiguate_command status = function | TacticAst.Coercion (loc, term) -> let status, term = disambiguate_term status term in status, TacticAst.Coercion (loc,term) | (TacticAst.Set _ | TacticAst.Qed _ | TacticAst.Drop _ ) as cmd -> status, cmd | TacticAst.Alias _ as x -> status, x | TacticAst.Obj (loc,obj) -> let status,obj = disambiguate_obj status obj in status, TacticAst.Obj (loc,obj) let disambiguate_executable status ex = match ex with | TacticAst.Tactical (loc, tac) -> let status, tac = disambiguate_tactical status tac in status, (TacticAst.Tactical (loc, tac)) | TacticAst.Command (loc, cmd) -> let status, cmd = disambiguate_command status cmd in status, (TacticAst.Command (loc, cmd)) | TacticAst.Macro (_, mac) -> command_error (sprintf "The macro %s can't be in a script" (TacticAstPp.pp_macro_ast mac)) let disambiguate_comment status c = match c with | TacticAst.Note (loc,n) -> status, TacticAst.Note (loc,n) | TacticAst.Code (loc,ex) -> let status, ex = disambiguate_executable status ex in status, TacticAst.Code (loc,ex) let disambiguate_statement status statement = match statement with | TacticAst.Comment (loc,c) -> let status, c = disambiguate_comment status c in status, TacticAst.Comment (loc,c) | TacticAst.Executable (loc,ex) -> let status, ex = disambiguate_executable status ex in status, TacticAst.Executable (loc,ex) let eval_ast status ast = let status,st = disambiguate_statement status ast in (* this disambiguation step should be deferred to support tacticals *) eval status st let eval_from_stream status str cb = let stl = CicTextualParser2.parse_statements str in List.iter (fun ast -> cb !status ast;status := eval_ast !status ast) stl let eval_from_stream_greedy status str cb = while true do print_string "matita> "; flush stdout; let ast = CicTextualParser2.parse_statement str in cb !status ast; status := eval_ast !status ast done let eval_string status str = eval_from_stream status (Stream.of_string str) (fun _ _ -> ()) let default_options () = (* let options = StringMap.add "baseuri" (String (Helm_registry.get "matita.baseuri" ^ Helm_registry.get "matita.owner")) no_options in *) let options = StringMap.add "basedir" (String (Helm_registry.get "matita.basedir" )) no_options in options let initial_status = lazy { aliases = DisambiguateTypes.empty_environment; proof_status = No_proof; options = default_options (); objects = []; }