*)
let baseuri = lazy (ref ("cic:/matita/" ^ Helm_registry.get "matita.owner"))
-let basedir = ref ((Unix.getpwuid (Unix.getuid ())).Unix.pw_dir) ;;
+let basedir = lazy (ref (Helm_registry.get "matita.basedir"))
let qualify name =
let baseuri = !(Lazy.force baseuri) in
class virtual interpreterState =
(* static values, shared by all states inheriting this class *)
let loc = ref None in
- let history = ref [] in
+ let last_item = ref None in
+ let evalAstCallback = ref None in
fun ~(console: #MatitaTypes.console) ->
object (self)
val dbd = MatitaMisc.dbd_instance ()
val currentProof = MatitaProof.instance ()
+ val disambiguator = MatitaDisambiguator.instance ()
(** eval a toplevel phrase in the current state and return the new state
*)
method parsePhrase s =
- match CicTextualParser2.parse_tactical s with
+ match disambiguator#parserr#parseTactical s with
| (TacticAst.LocatedTactical (loc', tac)) as tactical ->
loc := Some loc';
- (match tac with (* update interpreter history *)
- | TacticAst.Command (TacticAst.Qed None) ->
- history := `Qed :: !history
- | TacticAst.Command (TacticAst.Theorem (_, Some name, _, None)) ->
- history := `Theorem name :: !history
- | TacticAst.Command (TacticAst.Qed _)
- | TacticAst.Command (TacticAst.Theorem _) -> assert false
- | _ -> history := `Tactic :: !history);
tactical
| _ -> assert false
method virtual evalTactical:
(CicAst.term, string) TacticAst.tactical -> outcome
+ method private _evalTactical ast =
+ self#setLastItem None;
+ let res = self#evalTactical ast in
+ (match !evalAstCallback with Some f -> f ast | None -> ());
+ res
+
method evalPhrase s =
- debug_print (sprintf "evaluating '%s'" s);
- self#evalTactical (self#parsePhrase (Stream.of_string s))
+ self#_evalTactical (self#parsePhrase (Stream.of_string s))
- method evalAst ast = self#evalTactical ast
+ method evalAst ast = self#_evalTactical ast
method endOffset =
match !loc with
| Some (start_pos, end_pos) -> end_pos.Lexing.pos_cnum
| None -> failwith "MatitaInterpreter: no offset recorded"
+ method lastItem: script_item option = !last_item
+ method private setLastItem item = last_item := item
+
+ method setEvalAstCallback f = evalAstCallback := Some f
+
end
(** Implements phrases that should be accepted in all states *)
class sharedState
- ~(disambiguator: MatitaTypes.disambiguator)
~(console: #MatitaTypes.console)
?(mathViewer: MatitaTypes.mathViewer option)
()
!(Lazy.force baseuri));
Quiet
| TacticAst.Command (TacticAst.Basedir (Some path)) ->
- basedir := path;
+ Lazy.force basedir := path;
console#echo_message (sprintf "base dir set to \"%s\"" path);
Quiet
| TacticAst.Command (TacticAst.Basedir None) ->
- console#echo_message (sprintf "base dir is \"%s\"" !basedir);
+ console#echo_message (sprintf "base dir is \"%s\""
+ !(Lazy.force basedir));
Quiet
| TacticAst.Command (TacticAst.Check term) ->
- let (_, _, term,ugraph) =
+ let (_, metasenv, term,ugraph) =
MatitaCicMisc.disambiguate ~disambiguator ~currentProof term
in
- let (context, metasenv) =
+ let (context, _) =
MatitaCicMisc.get_context_and_metasenv currentProof
in
(* this is the Eval Compute
(* TASSI: here ugraph1 is unused.... FIXME *)
let expr = Cic.Cast (term, ty) in
(match mathViewer with
- | Some v -> v#checkTerm (`Cic expr)
+ | Some v -> v#checkTerm (`Cic (expr, metasenv))
| _ -> ());
Quiet
| TacticAst.Command (TacticAst.Search_pat (search_kind, pat)) ->
let cicIndTypes = List.rev cicIndTypes in
(UriManager.uri_of_string uri, (cicIndTypes, [], paramsno))
-let
- save_object_to_disk uri obj
-=
+let save_object_to_disk uri obj =
let ensure_path_exists path =
let dir = Filename.dirname path in
try
let annobj,_,_,ids_to_inner_sorts,ids_to_inner_types,_,_ =
Cic2acic.acic_object_of_cic_object ~eta_fix:false obj
in
-
(* prepare XML *)
let xml, bodyxml =
Cic2Xml.print_object uri ~ids_to_inner_sorts ~ask_dtd_to_the_getter:false
Cic2Xml.print_inner_types uri ~ids_to_inner_sorts ~ids_to_inner_types
~ask_dtd_to_the_getter:false
in
-
(* prepare URIs and paths *)
let innertypesuri = UriManager.innertypesuri_of_uri uri in
let bodyuri = UriManager.bodyuri_of_uri uri in
let innertypesfilename = Str.replace_first (Str.regexp "^cic:") ""
- (UriManager.string_of_uri innertypesuri) ^ ".xml" in
- let innertypespath = !basedir ^ "/" ^ innertypesfilename in
- let xmlfilename = Str.replace_first (Str.regexp "^cic:") ""
- (UriManager.string_of_uri uri) ^ ".xml" in
- let xmlpath = !basedir ^ "/" ^ xmlfilename in
- let xmlbodyfilename = Str.replace_first (Str.regexp "^cic:") ""
- (UriManager.string_of_uri uri) ^ ".body.xml" in
- let xmlbodypath = !basedir ^ "/" ^ xmlbodyfilename in
- let path_scheme_of path = "file:/" ^ path in
-
+ (UriManager.string_of_uri innertypesuri) ^ ".xml.gz" in
+ let innertypespath = !(Lazy.force basedir) ^ "/" ^ innertypesfilename in
+ let xmlfilename = Str.replace_first (Str.regexp "^cic:/") ""
+ (UriManager.string_of_uri uri) ^ ".xml.gz" in
+ let xmlpath = !(Lazy.force basedir) ^ "/" ^ xmlfilename in
+ let xmlbodyfilename = Str.replace_first (Str.regexp "^cic:/") ""
+ (UriManager.string_of_uri uri) ^ ".body.xml.gz" in
+ let xmlbodypath = !(Lazy.force basedir) ^ "/" ^ xmlbodyfilename in
+ let path_scheme_of path = "file://" ^ path in
+ MatitaMisc.mkdirs (List.map Filename.dirname [innertypespath; xmlpath]);
(* now write to disk *)
ensure_path_exists innertypespath;
- Xml.pp ~quiet:true xmlinnertypes (Some innertypespath) ;
+ Xml.pp ~gzip:true xmlinnertypes (Some innertypespath) ;
ensure_path_exists xmlpath;
- Xml.pp ~quiet:true xml (Some xmlpath) ;
-
+ Xml.pp ~gzip:true xml (Some xmlpath) ;
+
(* now register to the getter *)
Http_getter.register' innertypesuri (path_scheme_of innertypespath);
Http_getter.register' uri (path_scheme_of xmlpath);
-
(* now the optional body, both write and register *)
(match bodyxml,bodyuri with
None,None -> ()
| Some bodyxml,Some bodyuri->
ensure_path_exists xmlbodypath;
- Xml.pp ~quiet:true bodyxml (Some xmlbodypath) ;
+ Xml.pp ~gzip:true bodyxml (Some xmlbodypath) ;
Http_getter.register' bodyuri (path_scheme_of xmlbodypath)
| _-> assert false)
-;;
-
-
- (* TODO Zack a lot more to be done here:
- * - save object to disk in xml format
- * - register uri to the getter
+ (* TODO ZACK a lot more to be done here:
* - save universe file *)
let add_constant_to_world ~(console: #MatitaTypes.console)
~dbd ~uri ?body ~ty ?(params = []) ?(attrs = []) ~ugraph ()
let obj = Cic.Constant (name, body, ty, params, attrs) in
let ugraph = CicUnivUtils.clean_and_fill uri obj ugraph in
CicEnvironment.add_type_checked_term uri (obj, ugraph);
- MetadataDb.index_constant ~dbd
- ~owner:(Helm_registry.get "matita.owner") ~uri ~body ~ty;
+ MetadataDb.index_constant ~dbd ~uri ~body ~ty;
save_object_to_disk uri obj;
console#echo_message (sprintf "%s constant defined" suri)
end
let obj = Cic.InductiveDefinition (indTypes, params, leftno, attrs) in
let ugraph = CicUnivUtils.clean_and_fill uri obj ugraph in
CicEnvironment.put_inductive_definition uri (obj, ugraph);
- MetadataDb.index_inductive_def ~dbd
- ~owner:(Helm_registry.get "matita.owner") ~uri ~types:indTypes;
+ MetadataDb.index_inductive_def ~dbd ~uri ~types:indTypes;
save_object_to_disk uri obj;
console#echo_message (sprintf "%s inductive type defined" suri);
let elim sort =
end
(** Implements phrases that should be accepted only in Command state *)
-class commandState
- ~(disambiguator: MatitaTypes.disambiguator)
- ~(console: #MatitaTypes.console)
- ?mathViewer
- ()
-=
- let shared = new sharedState ~disambiguator ~console ?mathViewer () in
+class commandState ~(console: #MatitaTypes.console) ?mathViewer () =
+ let shared = new sharedState ~console ?mathViewer () in
object (self)
inherit interpreterState ~console
let uri = UriManager.uri_of_string (qualify name ^ ".con") in
let proof = MatitaProof.proof ~typ:expr ~uri ~metasenv () in
currentProof#start proof;
+ self#setLastItem (Some `Theorem);
New_state Proof
| TacticAst.Command
(TacticAst.Theorem (_, Some name, type_ast, Some body_ast)) ->
let body = CicMetaSubst.apply_subst subst body_cic in
let ty = CicMetaSubst.apply_subst subst type_cic in
add_constant_to_world ~console ~dbd ~uri ~body ~ty ~ugraph ();
+ self#setLastItem (Some (`Def uri));
Quiet
| TacticAst.Command (TacticAst.Inductive (params, indTypes)) ->
in
add_inductive_def_to_world ~console
~dbd ~uri ~indTypes ~params ~leftno ~ugraph ();
+ self#setLastItem (Some (`Inductive uri));
Quiet
| TacticAst.Command TacticAst.Quit ->
currentProof#quit ();
UriManager.uri_of_string (base ^ xp)
| Cic.Appl (he::_) -> uri_of_term he
| t ->
- prerr_endline ("Fallisco a estrarre la uri di " ^
- (CicPp.ppterm t));
+ error ("can't extract uri from " ^ (CicPp.ppterm t));
assert false
in
let ty_src,ty_tgt = extract_last_two_p coer_ty in
(** Implements phrases that should be accepted only in Proof state, basically
* tacticals *)
-class proofState
- ~(disambiguator: MatitaTypes.disambiguator)
- ~(console: #MatitaTypes.console)
- ?mathViewer
- ()
-=
- let shared = new sharedState ~disambiguator ~console ?mathViewer () in
+class proofState ~(console: #MatitaTypes.console) ?mathViewer () =
+ let shared = new sharedState ~console ?mathViewer () in
object (self)
inherit interpreterState ~console
Tactics.replace ~what:(self#disambiguate what)
~with_what:(self#disambiguate with_what)
| TacticAst.Auto -> Tactics.auto_new ~dbd
+ | TacticAst.Hint ->
+ let l = List.map fst
+ (MetadataQuery.experimental_hint ~dbd
+ (currentProof#proof#proof,currentProof#proof#goal))
+ in
+ let u = console#choose_uri l in
+ Tactics.apply (CicUtil.term_of_uri u)
+ | TacticAst.Change (what, with_what, _) ->
+ let what = self#disambiguate what in
+ let with_what = self#disambiguate with_what in
+ Tactics.change ~what ~with_what
(*
(* TODO Zack a lot more of tactics to be implemented here ... *)
- | TacticAst.Change of 'term * 'term * 'ident option
| TacticAst.Change_pattern of 'term pattern * 'term * 'ident option
+ | TacticAst.Change of 'term * 'term * 'ident option
| TacticAst.Decompose of 'ident * 'ident list
| TacticAst.Discriminate of 'ident
| TacticAst.Fold of reduction_kind * 'term
add_constant_to_world ~console ~dbd ~uri ~body:bo ~ty ~ugraph ();
currentProof#abort ();
console#echo_message (sprintf "%s defined" suri);
+ self#setLastItem (Some (`Qed uri));
New_state Command
| TacticAst.Seq tacticals ->
- (* TODO Zack check for proof completed at each step? *)
+ (* TODO ZACK check for proof completed at each step? *)
+ (* TODO ZACK code completely broken here: we must build logic level
+ * tacticals instead of iterating interpreter evaluation *)
+ if (List.length tacticals > 1) then
+ warning "tacticals are broken: see matitaInterpreter.ml";
List.iter (fun t -> ignore (self#evalTactical t)) tacticals;
+ self#setLastItem (Some `Tactic);
New_state Proof
| TacticAst.Tactic tactic_phrase ->
let tactic = self#lookup_tactic tactic_phrase in
currentProof#proof#apply_tactic tactic;
+ self#setLastItem (Some `Tactic);
New_state Proof
| tactical -> shared#evalTactical tactical
end
-class interpreter
- ~(disambiguator: MatitaTypes.disambiguator)
- ~(console: #MatitaTypes.console)
- ?mathViewer
- ()
-=
- let commandState = new commandState ~disambiguator ~console ?mathViewer () in
- let proofState = new proofState ~disambiguator ~console ?mathViewer () in
+class interpreter ~(console: #MatitaTypes.console) ?mathViewer () =
+ let commandState = new commandState ~console ?mathViewer () in
+ let proofState = new proofState ~console ?mathViewer () in
object (self)
val mutable state = commandState
- method reset = state <- commandState
+ method setState (tag: [`Proof | `Command]) =
+ match tag with
+ | `Proof -> (state <- proofState)
+ | `Command -> (state <- commandState)
method endOffset = state#endOffset
method evalPhrase s = self#eval (fun () -> state#evalPhrase s)
method evalAst ast = self#eval (fun () -> state#evalAst ast)
+
+ (** {2 methods delegated to current state} *)
+
+ method endOffset = state#endOffset
+ method lastItem = state#lastItem
+ method setEvalAstCallback = state#setEvalAstCallback
end
-let interpreter
- ~(disambiguator: MatitaTypes.disambiguator)
- ~(console: #MatitaTypes.console)
- ?mathViewer
- ()
-=
- new interpreter ~disambiguator ~console ?mathViewer ()
+let interpreter ~(console: #MatitaTypes.console) ?mathViewer () =
+ new interpreter ~console ?mathViewer ()