X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;ds=sidebyside;f=matita%2Fmatita%2Flib%2Fturing%2Funiversal%2Funi_step.ma;h=1811d5a19743fdfc572fe5e39ee753c93023623d;hb=d9633eca8fb8556a5eabaffdd1f561d0078d132f;hp=0cc8f71c49140c35a2d2ef564c3302f34c3a9057;hpb=f0d422b660e11886ec4f9a823da795050f07e07f;p=helm.git diff --git a/matita/matita/lib/turing/universal/uni_step.ma b/matita/matita/lib/turing/universal/uni_step.ma index 0cc8f71c4..1811d5a19 100644 --- a/matita/matita/lib/turing/universal/uni_step.ma +++ b/matita/matita/lib/turing/universal/uni_step.ma @@ -421,19 +421,135 @@ lapply (Hta (〈c0,false〉::curconfig) table1 s0 ls s1 ] qed. -definition R_uni_step ≝ λt1,t2. - ∀n,table,c,c1,ls,rs,curs,curc,news,newc,mv. - table_TM n table → - match_in_table (〈c,false〉::curs@[〈curc,false〉]) - (〈c1,false〉::news@[〈newc,false〉]) mv table → - t1 = midtape STape (〈grid,false〉::ls) 〈c,false〉 - (curs@〈curc,false〉::〈grid,false〉::table@〈grid,false〉::rs) → - ∀t1',ls1,rs1.t1' = lift_tape ls 〈curc,false〉 rs → - (t2 = midtape STape (〈grid,false〉::ls1) 〈c1,false〉 - (news@〈newc,false〉::〈grid,false〉::table@〈grid,false〉::rs1) ∧ - lift_tape ls1 〈newc,false〉 rs1 = - tape_move STape t1' (Some ? 〈〈newc,false〉,move_of_unialpha mv〉)). +(* +if is_false(current) (* current state is not final *) + then init_match; + match_tuple; + if is_marked(current) = false (* match ok *) + then + exec_move + move_r; + else sink; + else nop; +*) -definition no_nulls ≝ - λl:list STape.∀x.memb ? x l = true → is_null (\fst x) = false. - +definition uni_step ≝ + ifTM ? (test_char STape (λc.\fst c == bit false)) + (single_finalTM ? (seq ? init_match + (seq ? match_tuple + (ifTM ? (test_char ? (λc.¬is_marked ? c)) + (seq ? exec_move (move_r …)) + (nop ?) (* sink *) + tc_true)))) + (nop ?) + tc_true. + +definition R_uni_step_true ≝ λt1,t2. + ∀n,t0,table,s0,s1,c0,c1,ls,rs,curconfig,newconfig,mv. + table_TM (S n) (〈t0,false〉::table) → + match_in_table (〈s0,false〉::curconfig@[〈c0,false〉]) + (〈s1,false〉::newconfig@[〈c1,false〉]) mv (〈t0,false〉::table) → + legal_tape ls 〈c0,false〉 rs → + t1 = midtape STape (〈grid,false〉::ls) 〈s0,false〉 + (curconfig@〈c0,false〉::〈grid,false〉::〈t0,false〉::table@〈grid,false〉::rs) → + ∀t1'.t1' = lift_tape ls 〈c0,false〉 rs → + s0 = bit false ∧ + ∃ls1,rs1,c2. + (t2 = midtape STape (〈grid,false〉::ls1) 〈s1,false〉 + (newconfig@〈c2,false〉::〈grid,false〉::〈t0,false〉::table@〈grid,false〉::rs1) ∧ + lift_tape ls1 〈c2,false〉 rs1 = + tape_move STape t1' (map_move c1 mv) ∧ legal_tape ls1 〈c2,false〉 rs1). + +definition R_uni_step_false ≝ λt1,t2. + ∀b. current STape t1 = Some ? 〈bit b,false〉 → b = true ∧ t2 = t1. + +axiom sem_match_tuple : Realize ? match_tuple R_match_tuple. + +lemma sem_uni_step : + accRealize ? uni_step (inr … (inl … (inr … 0))) + R_uni_step_true R_uni_step_false. +@(acc_sem_if_app … (sem_test_char ? (λc:STape.\fst c == bit false)) + (sem_seq … sem_init_match + (sem_seq … sem_match_tuple + (sem_if … (sem_test_char ? (λc.¬is_marked ? c)) + (sem_seq … sem_exec_move (sem_move_r …)) + (sem_nop …)))) + (sem_nop …) + …) +[ #intape #outtape + #ta whd in ⊢ (%→?); #Hta #HR + #n #t0 #table #s0 #s1 #c0 #c1 #ls #rs #curconfig #newconfig #mv + #Htable #Hmatch #Htape #Hintape #t1' #Ht1' + >Hintape in Hta; #Hta cases (Hta ? (refl ??)) -Hta + #Hs0 lapply (\P Hs0) -Hs0 #Hs0 #Hta % // + cases HR -HR + #tb * whd in ⊢ (%→?); #Htb + lapply (Htb (〈grid,false〉::ls) (curconfig@[〈c0,false〉]) (table@〈grid,false〉::rs) s0 t0 ???) + [ >Hta >associative_append % + | (* da decidere se aggiungere un'assunzione o utilizzare Hmatch *) @daemon + | (* idem *) @daemon + | -Hta -Htb #Htb * + #tc * whd in ⊢ (%→?); #Htc cases (Htc … Htable … Htb) -Htb -Htc + [| * #Hcurrent #Hfalse @False_ind + (* absurd by Hmatch *) @daemon + | >Hs0 % + | (* da decidere se aggiungere un'assunzione o utilizzare Hmatch *) @daemon + | (* Htable *) @daemon + | (* Htable, Hmatch → |config| = n *) @daemon ] + * #table1 * #newc * #mv1 * #table2 * #Htableeq #Htc * + [ * #td * whd in ⊢ (%→?); >Htc -Htc #Htd + cases (Htd ? (refl ??)) #_ -Htd + cut (newc = 〈s1,false〉::newconfig@[〈c1,false〉]) [@daemon] #Hnewc + >Hnewc #Htd + cut (mv1 = 〈\fst mv1,false〉) + [ >(eq_pair_fst_snd … mv1) @eq_f (*Htable, Htableeq*) @daemon ] #Hmv1 + * #te * whd in ⊢ (%→?); #Hte + (* mv1 ha tipo lista ma dovrebbe avere tipo unialpha *) + cut (td = midtape STape (〈c0,false〉::reverse STape curconfig@〈s0,false〉::〈grid,false〉::ls) + 〈grid,false〉 + ((table1@〈s0,false〉::curconfig@[〈c0,false〉])@〈comma,true〉::〈s1,false〉:: + newconfig@〈c1,false〉::〈comma,false〉::〈\fst mv1,false〉::table2@〈grid,false〉::rs)) + [ >Htd @eq_f3 // + [ >reverse_append >reverse_single % + | >associative_append >associative_append normalize + >associative_append >associative_append Hnewc in Htableeq; + >associative_append >associative_append normalize + >associative_append >associative_append + #Htableeq Houttape @eq_f @eq_f @eq_f @eq_f + change with ((〈t0,false〉::table)@?) in ⊢ (???%); + >Htableeq >associative_append >associative_append + >associative_append normalize >associative_append + >associative_append normalize >Hnewc associative_append normalize >associative_append % + | >(?: mv = \fst mv1) [| (*Hmatch, Htableeq*) @daemon ] + @Hliftte + ] + | // + ] + ] + ] + | * #td * whd in ⊢ (%→%→?); >Htc #Htd + cases (Htd ? (refl ??)) normalize in ⊢ (%→?); + #Hfalse destruct (Hfalse) + ] + ] +| #t1 #t2 #t3 whd in ⊢ (%→%→?); #Ht1 #Ht2 + #b #Hb cases (Ht1 ? Hb) #Hb' #Ht3 >Ht2 % // + cases b in Hb'; normalize #H1 // +] +qed.