| GrafiteAst.ApplyP (_, term) -> Tactics.applyP term
| GrafiteAst.ApplyS (_, term, params) ->
Tactics.applyS ~term ~params ~dbd:(LibraryDb.instance ())
- ~universe:status.GrafiteTypes.universe
+ ~automation_cache:status.GrafiteTypes.automation_cache
| GrafiteAst.Assumption _ -> Tactics.assumption
| GrafiteAst.AutoBatch (_,params) ->
Tactics.auto ~params ~dbd:(LibraryDb.instance ())
- ~universe:status.GrafiteTypes.universe
+ ~automation_cache:status.GrafiteTypes.automation_cache
| GrafiteAst.Cases (_, what, pattern, (howmany, names)) ->
Tactics.cases_intros ?howmany ~mk_fresh_name_callback:(namer_of names)
~pattern what
| GrafiteAst.Demodulate (_, params) ->
Tactics.demodulate
~dbd:(LibraryDb.instance ()) ~params
- ~universe:status.GrafiteTypes.universe
+ ~automation_cache:status.GrafiteTypes.automation_cache
| GrafiteAst.Destruct (_,xterms) -> Tactics.destruct xterms
| GrafiteAst.Elim (_, what, using, pattern, (depth, names)) ->
Tactics.elim_intros ?using ?depth ~mk_fresh_name_callback:(namer_of names)
| GrafiteAst.Suppose (_, t, id, t1) -> Declarative.suppose t id t1
| GrafiteAst.By_just_we_proved (_, just, ty, id, t1) ->
Declarative.by_just_we_proved ~dbd:(LibraryDb.instance())
- ~universe:status.GrafiteTypes.universe just ty id t1
+ ~automation_cache:status.GrafiteTypes.automation_cache just ty id t1
| GrafiteAst.We_need_to_prove (_, t, id, t2) ->
Declarative.we_need_to_prove t id t2
| GrafiteAst.Bydone (_, t) ->
Declarative.bydone ~dbd:(LibraryDb.instance())
- ~universe:status.GrafiteTypes.universe t
+ ~automation_cache:status.GrafiteTypes.automation_cache t
| GrafiteAst.We_proceed_by_cases_on (_, t, t1) ->
Declarative.we_proceed_by_cases_on t t1
| GrafiteAst.We_proceed_by_induction_on (_, t, t1) ->
| GrafiteAst.Thesisbecomes (_, t) -> Declarative.thesisbecomes t
| GrafiteAst.ExistsElim (_, just, id1, t1, id2, t2) ->
Declarative.existselim ~dbd:(LibraryDb.instance())
- ~universe:status.GrafiteTypes.universe just id1 t1 id2 t2
+ ~automation_cache:status.GrafiteTypes.automation_cache just id1 t1 id2 t2
| GrafiteAst.Case (_,id,params) -> Declarative.case id params
| GrafiteAst.AndElim(_,just,id1,t1,id2,t2) ->
Declarative.andelim ~dbd:(LibraryDb.instance ())
- ~universe:status.GrafiteTypes.universe just id1 t1 id2 t2
+ ~automation_cache:status.GrafiteTypes.automation_cache just id1 t1 id2 t2
| GrafiteAst.RewritingStep (_,termine,t1,t2,cont) ->
Declarative.rewritingstep ~dbd:(LibraryDb.instance ())
- ~universe:status.GrafiteTypes.universe termine t1 t2 cont
+ ~automation_cache:status.GrafiteTypes.automation_cache termine t1 t2 cont
let classify_tactic tactic =
match tactic with
let eval_ng_tac (text, prefix_len, tac) =
match tac with
| GrafiteAst.NApply (_loc, t) -> NTactics.apply_tac (text,prefix_len,t)
+ | GrafiteAst.NAssert (_loc, seqs) ->
+ NTactics.assert_tac
+ ((List.map
+ (function (hyps,concl) ->
+ List.map
+ (function
+ (id,`Decl t) -> id,`Decl (text,prefix_len,t)
+ |(id,`Def (b,t))->id,`Def((text,prefix_len,b),(text,prefix_len,t))
+ ) hyps,
+ (text,prefix_len,concl))
+ ) seqs)
| GrafiteAst.NCases (_loc, what, where) ->
NTactics.cases_tac
~what:(text,prefix_len,what)
| GrafiteAst.Index (loc,None,uri) ->
assert false (* TODO: for user input *)
| GrafiteAst.Index (loc,Some key,uri) ->
- let universe = Universe.index
- status.GrafiteTypes.universe key (CicUtil.term_of_uri uri) in
- let status = {status with GrafiteTypes.universe = universe} in
+ let universe =
+ status.GrafiteTypes.automation_cache.AutomationCache.univ
+ in
+ let universe = Universe.index universe key (CicUtil.term_of_uri uri) in
+ let cache = {
+ status.GrafiteTypes.automation_cache with AutomationCache.univ = universe }
+ in
+ let status = { status with GrafiteTypes.automation_cache = cache } in
(* debug
let msg =
let candidates = Universe.get_candidates status.GrafiteTypes.universe key in
*)
let status = GrafiteTypes.add_moo_content [cmd] status in
status,[]
+ | GrafiteAst.Select (_,uri) as cmd ->
+ if List.mem cmd status.GrafiteTypes.moo_content_rev then status, []
+ else
+ let cache =
+ AutomationCache.add_term_to_active status.GrafiteTypes.automation_cache
+ [] [] [] (CicUtil.term_of_uri uri) None
+ in
+ let status = { status with GrafiteTypes.automation_cache = cache } in
+ let status = GrafiteTypes.add_moo_content [cmd] status in
+ status, []
+ | GrafiteAst.Pump (_,steps) ->
+ let cache =
+ AutomationCache.pump status.GrafiteTypes.automation_cache steps
+ in
+ let status = { status with GrafiteTypes.automation_cache = cache } in
+ status, []
| GrafiteAst.PreferCoercion (loc, coercion) ->
eval_prefer_coercion status coercion
| GrafiteAst.Coercion (loc, uri, add_composites, arity, saturations) ->
eval_coercion status ~add_composites uri arity saturations
+ | GrafiteAst.Inverter (loc, name, indty, params) ->
+ let buri = GrafiteTypes.get_baseuri status in
+ let uri = UriManager.uri_of_string (buri ^ "/" ^ name ^ ".con") in
+ let indty_uri =
+ try CicUtil.uri_of_term indty
+ with Invalid_argument _ ->
+ raise (Invalid_argument "not an inductive type to invert")
+ in
+ Inversion_principle.build_inverter ~add_obj status uri indty_uri params
| GrafiteAst.UnificationHint (loc, t, n) ->
eval_unification_hint status t n
| GrafiteAst.Default (loc, what, uris) as cmd ->
GrafiteTypes.proof_status = GrafiteTypes.No_proof},
(*CSC: I throw away the arities *)
uri::lemmas
+ | GrafiteAst.NQed loc ->
+ (match status.GrafiteTypes.ng_status with
+ | GrafiteTypes.ProofMode
+ { NTacStatus.istatus =
+ {NTacStatus.pstatus = pstatus; lstatus=lexicon_status} } ->
+ let uri,height,menv,subst,obj = pstatus in
+ if menv <> [] then
+ raise
+ (GrafiteTypes.Command_error"You can't Qed an incomplete theorem")
+ else
+ let obj =
+prerr_endline "CSC: here we should fix the height!!!";
+prerr_endline (NUri.string_of_uri uri);
+ uri,height,[],[],NTacStatus.apply_subst_obj subst obj
+ in
+ NCicLibrary.add_obj uri obj;
+ {status with
+ GrafiteTypes.ng_status =
+ GrafiteTypes.CommandMode lexicon_status },[]
+ | _ -> raise (GrafiteTypes.Command_error "Not in proof mode"))
| GrafiteAst.Relation (loc, id, a, aeq, refl, sym, trans) ->
Setoids.add_relation id a aeq refl sym trans;
status, [] (*CSC: TO BE FIXED *)
| CicNotationPt.Theorem (_,name,ty,_) -> ty, name
| _ -> assert false
in
- let suri = "cic:/ng_matita/" ^ name ^ ".def" in
+ (* CSC: ".con"??? it is like that for now *)
+ let suri = "cic:/ng_matita/" ^ name ^ ".con" in
let nlexicon_status =
match status.GrafiteTypes.ng_status with
| GrafiteTypes.ProofMode _ -> assert false