X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fmatita%2Flib%2Fturing%2Fmulti_universal%2Fmatch.ma;h=59403fa19a7c7a5e4f591b3ac352ae12d71cbd70;hb=2f8eacc69333b13fe143cc007681f21464e06529;hp=76a1fc30d0a6dbd270d7c926a79b02de98239910;hpb=c16905138e385d30856d587f07c396a3cab301ed;p=helm.git diff --git a/matita/matita/lib/turing/multi_universal/match.ma b/matita/matita/lib/turing/multi_universal/match.ma index 76a1fc30d..59403fa19 100644 --- a/matita/matita/lib/turing/multi_universal/match.ma +++ b/matita/matita/lib/turing/multi_universal/match.ma @@ -14,7 +14,7 @@ include "turing/multi_universal/compare.ma". include "turing/multi_universal/par_test.ma". - +include "turing/multi_universal/moves_2.ma". definition Rtc_multi_true ≝ λalpha,test,n,i.λt1,t2:Vector ? (S n). @@ -71,280 +71,326 @@ cases (acc_sem_inject … Hin (sem_test_null alpha) int) #Hi0i @sym_eq @Hnth_j @sym_not_eq // ] ] qed. -axiom comp_list: ∀S:DeqSet. ∀l1,l2:list S.∀is_endc. ∃l,tl1,tl2. - l1 = l@tl1 ∧ l2 = l@tl2 ∧ (∀c.c ∈ l = true → is_endc c = false) ∧ - ∀a,tla. tl1 = a::tla → is_endc a = true ∨ (∀b,tlb.tl2 = b::tlb → a≠b). - -axiom daemon : ∀X:Prop.X. - -definition match_test ≝ λsrc,dst.λsig:DeqSet.λn,is_endc.λv:Vector ? n. +definition match_test ≝ λsrc,dst.λsig:DeqSet.λn.λv:Vector ? n. match (nth src (option sig) v (None ?)) with [ None ⇒ false - | Some x ⇒ notb ((is_endc x) ∨ (nth dst (DeqOption sig) v (None ?) == None ?))]. + | Some x ⇒ notb (nth dst (DeqOption sig) v (None ?) == None ?) ]. + +definition mmove_states ≝ initN 2. + +definition mmove0 : mmove_states ≝ mk_Sig ?? 0 (leb_true_to_le 1 2 (refl …)). +definition mmove1 : mmove_states ≝ mk_Sig ?? 1 (leb_true_to_le 2 2 (refl …)). + +definition trans_mmove ≝ + λi,sig,n,D. + λp:mmove_states × (Vector (option sig) (S n)). + let 〈q,a〉 ≝ p in match (pi1 … q) with + [ O ⇒ 〈mmove1,change_vec ? (S n) (null_action ? n) (〈None ?,D〉) i〉 + | S _ ⇒ 〈mmove1,null_action sig n〉 ]. + +definition mmove ≝ + λi,sig,n,D. + mk_mTM sig n mmove_states (trans_mmove i sig n D) + mmove0 (λq.q == mmove1). + +definition Rm_multi ≝ + λalpha,n,i,D.λt1,t2:Vector ? (S n). + t2 = change_vec ? (S n) t1 (tape_move alpha (nth i ? t1 (niltape ?)) D) i. + +lemma sem_move_multi : + ∀alpha,n,i,D.i ≤ n → + mmove i alpha n D ⊨ Rm_multi alpha n i D. +#alpha #n #i #D #Hin #int %{2} +%{(mk_mconfig ? mmove_states n mmove1 ?)} +[| % + [ whd in ⊢ (??%?); @eq_f whd in ⊢ (??%?); @eq_f % + | whd >tape_move_multi_def + <(change_vec_same … (ctapes …) i (niltape ?)) + >pmap_change tape_move_null_action % ] ] + qed. + +definition rewind ≝ λsrc,dst,sig,n. + parmove src dst sig n L · mmove src sig n R · mmove dst sig n R. -definition match_step ≝ λsrc,dst,sig,n,is_startc,is_endc. - compare src dst sig n is_endc · - (ifTM ?? (partest sig n (match_test src dst sig ? is_endc)) +definition R_rewind ≝ λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n). + (∀x,x0,xs,rs. + nth src ? int (niltape ?) = midtape sig (xs@[x0]) x rs → + ∀ls0,y,y0,target,rs0.|xs| = |target| → + nth dst ? int (niltape ?) = midtape sig (target@y0::ls0) y rs0 → + outt = change_vec ?? + (change_vec ?? int (midtape sig [] x0 (reverse ? xs@x::rs)) src) + (midtape sig ls0 y0 (reverse ? target@y::rs0)) dst) ∧ + (∀x,rs.nth src ? int (niltape ?) = midtape sig [] x rs → + ∀ls0,y,rs0.nth dst ? int (niltape ?) = midtape sig ls0 y rs0 → + outt = int). + +(* +theorem accRealize_to_Realize : + ∀sig,n.∀M:mTM sig n.∀Rtrue,Rfalse,acc. + M ⊨ [ acc: Rtrue, Rfalse ] → M ⊨ Rtrue ∪ Rfalse. +#sig #n #M #Rtrue #Rfalse #acc #HR #t +cases (HR t) #k * #outc * * #Hloop +#Htrue #Hfalse %{k} %{outc} % // +cases (true_or_false (cstate sig (states sig n M) n outc == acc)) #Hcase +[ % @Htrue @(\P Hcase) | %2 @Hfalse @(\Pf Hcase) ] +qed. +*) + +lemma sem_rewind : ∀src,dst,sig,n. + src ≠ dst → src < S n → dst < S n → + rewind src dst sig n ⊨ R_rewind src dst sig n. +#src #dst #sig #n #Hneq #Hsrc #Hdst +@(sem_seq_app sig n ????? (sem_parmoveL src dst sig n Hneq Hsrc Hdst) ?) +[| @(sem_seq_app sig n ????? (sem_move_multi … R ?) (sem_move_multi … R ?)) // + @le_S_S_to_le // ] +#ta #tb * #tc * * #Htc #_ * #td * whd in ⊢ (%→%→?); #Htd #Htb % +[ #x #x0 #xs #rs #Hmidta_src #ls0 #y #y0 #target #rs0 #Hlen #Hmidta_dst + >(Htc ??? Hmidta_src ls0 y (target@[y0]) rs0 ??) in Htd; + [|>Hmidta_dst // + |>length_append >length_append >Hlen % ] + >change_vec_commute [|@sym_not_eq //] + >change_vec_change_vec + >nth_change_vec_neq [|@sym_not_eq //] + >nth_change_vec // >reverse_append >reverse_single + >reverse_append >reverse_single normalize in match (tape_move ???); + >rev_append_def >append_nil #Htd >Htd in Htb; + >change_vec_change_vec >nth_change_vec // + cases ls0 [|#l1 #ls1] normalize in match (tape_move ???); // +| #x #rs #Hmidta_src #ls0 #y #rs0 #Hmidta_dst + lapply (Htc … Hmidta_src … (refl ??) Hmidta_dst) -Htc #Htc >Htc in Htd; + >change_vec_commute [|@sym_not_eq //] >change_vec_change_vec + >nth_change_vec_neq [|@sym_not_eq //] + >nth_change_vec // lapply (refl ? ls0) cases ls0 in ⊢ (???%→%); + [ #Hls0 #Htd >Htd in Htb; + >nth_change_vec // >change_vec_change_vec + whd in match (tape_move ???);whd in match (tape_move ???); change_vec_same >change_vec_same // + | #l1 #ls1 #Hls0 #Htd >Htd in Htb; + >nth_change_vec // >change_vec_change_vec + whd in match (tape_move ???);whd in match (tape_move ???); change_vec_same >change_vec_same // +]] +qed. + +definition match_step ≝ λsrc,dst,sig,n. + compare src dst sig n · + (ifTM ?? (partest sig n (match_test src dst sig ?)) (single_finalTM ?? - (parmove src dst sig n L is_startc · (inject_TM ? (move_r ?) n dst))) + (rewind src dst sig n · (inject_TM ? (move_r ?) n dst))) (nop …) partest1). - + +(* we assume the src is a midtape + we stop + if the dst is out of bounds (outt = int) + or dst.right is shorter than src.right (outt.current → None) + or src.right is a prefix of dst.right (out = just right of the common prefix) *) definition R_match_step_false ≝ - λsrc,dst,sig,n,is_endc.λint,outt: Vector (tape sig) (S n). - ∀ls,x,xs,end,rs. - nth src ? int (niltape ?) = midtape sig ls x (xs@end::rs) → - (∀c0. memb ? c0 (x::xs) = true → is_endc c0 = false) → is_endc end = true → - ((current sig (nth dst (tape sig) int (niltape sig)) = None ?) ∧ outt = int) ∨ + λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n). + ∀ls,x,xs. + nth src ? int (niltape ?) = midtape sig ls x xs → + ((current sig (nth dst (tape sig) int (niltape sig)) = None ?) ∧ outt = int) ∨ (∃ls0,rs0,xs0. nth dst ? int (niltape ?) = midtape sig ls0 x rs0 ∧ xs = rs0@xs0 ∧ - current sig (nth dst (tape sig) outt (niltape sig)) = None ?) ∨ + outt = change_vec ?? + (change_vec ?? int (mk_tape sig (reverse ? rs0@x::ls) (option_hd ? xs0) (tail ? xs0)) src) + (mk_tape ? (reverse ? rs0@x::ls0) (None ?) [ ]) dst) ∨ (∃ls0,rs0. nth dst ? int (niltape ?) = midtape sig ls0 x (xs@rs0) ∧ - ∀rsj,c. - rs0 = c::rsj → + (* ∀rsj,c. + rs0 = c::rsj → *) outt = change_vec ?? - (change_vec ?? int (midtape sig (reverse ? xs@x::ls) end rs) src) - (midtape sig (reverse ? xs@x::ls0) c rsj) dst). + (change_vec ?? int (mk_tape sig (reverse ? xs@x::ls) (None ?) [ ]) src) + (mk_tape sig (reverse ? xs@x::ls0) (option_hd ? rs0) (tail ? rs0)) dst). +(* + we assume the src is a midtape [ ] s rs + if we iterate + then dst.current = Some ? s1 + and if s ≠ s1 then outt = int.dst.move_right() + and if s = s1 + then int.src.right and int.dst.right have a common prefix + and the heads of their suffixes are different + and outt = int.dst.move_right(). + + *) definition R_match_step_true ≝ - λsrc,dst,sig,n,is_startc,is_endc.λint,outt: Vector (tape sig) (S n). - ∀s.current sig (nth src (tape sig) int (niltape sig)) = Some ? s → - current sig (nth dst (tape sig) int (niltape sig)) ≠ None ? ∧ - (is_startc s = true → - (∀c.c ∈ right ? (nth src (tape sig) int (niltape sig)) = true → is_startc c = false) → - (∀s1.current sig (nth dst (tape sig) int (niltape sig)) = Some ? s1 → s ≠ s1 → - outt = change_vec ?? int - (tape_move … (nth dst ? int (niltape ?)) (Some ? 〈s1,R〉)) dst ∧ is_endc s = false) ∧ - (∀ls,x,xs,ci,cj,rs,ls0,rs0. - nth src ? int (niltape ?) = midtape sig ls x (xs@ci::rs) → - nth dst ? int (niltape ?) = midtape sig ls0 x (xs@cj::rs0) → - (∀c0. memb ? c0 (x::xs) = true → is_endc c0 = false) → - ci ≠ cj → - (outt = change_vec ?? int - (tape_move … (nth dst ? int (niltape ?)) (Some ? 〈x,R〉)) dst ∧ is_endc ci = false))). -(* ∧ - (rs0 = [ ] → - outt = change_vec ?? - (change_vec ?? int (midtape sig (reverse ? xs@x::ls) ci rs) src) - (mk_tape sig (reverse ? xs@x::ls0) (None ?) [ ]) dst)). *) - + λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n). + ∀s,rs.nth src ? int (niltape ?) = midtape ? [ ] s rs → + outt = change_vec ?? int + (tape_move_mono … (nth dst ? int (niltape ?)) (〈None ?,R〉)) dst ∧ + (∃s0.current sig (nth dst (tape sig) int (niltape sig)) = Some ? s0 ∧ + (s0 = s → + ∃xs,ci,rs',ls0,cj,rs0. + rs = xs@ci::rs' ∧ + nth dst ? int (niltape ?) = midtape sig ls0 s (xs@cj::rs0) ∧ + ci ≠ cj)). + lemma sem_match_step : - ∀src,dst,sig,n,is_startc,is_endc.src ≠ dst → src < S n → dst < S n → - match_step src dst sig n is_startc is_endc ⊨ + ∀src,dst,sig,n.src ≠ dst → src < S n → dst < S n → + match_step src dst sig n ⊨ [ inr ?? (inr ?? (inl … (inr ?? start_nop))) : - R_match_step_true src dst sig n is_startc is_endc, - R_match_step_false src dst sig n is_endc ]. -#src #dst #sig #n #is_startc #is_endc #Hneq #Hsrc #Hdst -@(acc_sem_seq_app sig n … (sem_compare src dst sig n is_endc Hneq Hsrc Hdst) - (acc_sem_if ? n … (sem_partest sig n (match_test src dst sig ? is_endc)) + R_match_step_true src dst sig n, + R_match_step_false src dst sig n ]. +#src #dst #sig #n #Hneq #Hsrc #Hdst +@(acc_sem_seq_app sig n … (sem_compare src dst sig n Hneq Hsrc Hdst) + (acc_sem_if ? n … (sem_partest sig n (match_test src dst sig ?)) (sem_seq … - (sem_parmoveL ???? is_startc Hneq Hsrc Hdst) + (sem_rewind ???? Hneq Hsrc Hdst) (sem_inject … dst (le_S_S_to_le … Hdst) (sem_move_r ? ))) (sem_nop …))) -[#ta #tb #tc * #Hcomp1 #Hcomp2 * #td * * #Htest #Htd >Htd -Htd - * #te * #Hte #Htb whd - #s #Hcurta_src % - [ lapply (refl ? (current ? (nth dst ? ta (niltape ?)))) - cases (current ? (nth dst ? ta (niltape ?))) in ⊢ (???%→%); - [| #c #_ % #Hfalse destruct (Hfalse) ] - #Hcurta_dst >Hcomp1 in Htest; [| %2 %2 //] - whd in ⊢ (??%?→?); change with (current ? (niltape ?)) in match (None ?); - Hcurta_src whd in ⊢ (??%?→?); Hcurta_dst cases (is_endc s) normalize in ⊢ (%→?); #H destruct (H) - | #Hstart #Hnotstart % - [ #s1 #Hcurta_dst #Hneqss1 -Hcomp2 - cut (tc = ta) - [@Hcomp1 %2 %1 %1 >Hcurta_src >Hcurta_dst @(not_to_not … Hneqss1) #H destruct (H) //] - #H destruct (H) -Hcomp1 cases Hte #_ -Hte #Hte - cut (te = ta) [@Hte %1 %1 %{s} % //] -Hte #H destruct (H) % - [cases Htb * #_ #Hmove #Hmove1 @(eq_vec … (niltape … )) - #i #Hi cases (decidable_eq_nat i dst) #Hidst - [ >Hidst >nth_change_vec // cases (current_to_midtape … Hcurta_dst) - #ls * #rs #Hta_mid >(Hmove … Hta_mid) >Hta_mid cases rs // - | >nth_change_vec_neq [|@sym_not_eq //] @sym_eq @Hmove1 @sym_not_eq // ] - | whd in Htest:(??%?); >(nth_vec_map ?? (current sig)) in Hcurta_src; #Hcurta_src - >Hcurta_src in Htest; whd in ⊢ (??%?→?); - cases (is_endc s) // whd in ⊢ (??%?→?); #H @sym_eq // - ] - |#ls #x #xs #ci #cj #rs #ls0 #rs00 #Htasrc_mid #Htadst_mid #Hnotendc #Hcicj - cases (Hcomp2 … Htasrc_mid Htadst_mid Hnotendc) [ * #H destruct (H) ] - * #cj' * #rs0' * #Hcjrs0 destruct (Hcjrs0) -Hcomp2 #Hcomp2 - lapply (Hcomp2 (or_intror ?? Hcicj)) -Hcomp2 #Htc % - [ cases Hte -Hte #Hte #_ whd in Hte; - >Htasrc_mid in Hcurta_src; whd in ⊢ (??%?→?); #H destruct (H) - lapply (Hte ls ci (reverse ? xs) rs s ??? ls0 cj' (reverse ? xs) s rs0' (refl ??) ?) // - [ >Htc >nth_change_vec // - | #c0 #Hc0 @(Hnotstart c0) >Htasrc_mid cases (orb_true_l … Hc0) -Hc0 #Hc0 - [@memb_append_l2 >(\P Hc0) @memb_hd - |@memb_append_l1 <(reverse_reverse …xs) @memb_reverse // +[ #ta #tb #tc * lapply (refl ? (current ? (nth src ? ta (niltape ?)))) + cases (current ? (nth src ? ta (niltape ?))) in ⊢ (???%→%); + [ #Hcurta_src #Hcomp #_ * #td * >Hcomp [| % %2 %] + whd in ⊢ (%→?); * whd in ⊢ (??%?→?); + >nth_current_chars >Hcurta_src normalize in ⊢ (%→?); #H destruct (H) + | #s #Hs lapply (refl ? (current ? (nth dst ? ta (niltape ?)))) + cases (current ? (nth dst ? ta (niltape ?))) in ⊢ (???%→%); + [ #Hcurta_dst #Hcomp #_ * #td * >Hcomp [| %2 %] + whd in ⊢ (%→?); * whd in ⊢ (??%?→?); + >nth_current_chars >nth_current_chars >Hs >Hcurta_dst + normalize in ⊢ (%→?); #H destruct (H) + | #s0 #Hs0 + cases (current_to_midtape … Hs) #ls * #rs #Hmidta_src >Hmidta_src + cases (current_to_midtape … Hs0) #ls0 * #rs0 #Hmidta_dst >Hmidta_dst + cases (true_or_false (s == s0)) #Hss0 + [ lapply (\P Hss0) -Hss0 #Hss0 destruct (Hss0) + #_ #Hcomp cases (Hcomp ????? (refl ??) (refl ??)) -Hcomp [ * + [ * #rs' * #_ #Hcurtc_dst * #td * whd in ⊢ (%→?); * whd in ⊢ (??%?→?); + >nth_current_chars >nth_current_chars >Hcurtc_dst + cases (current ? (nth src …)) + [normalize in ⊢ (%→?); #H destruct (H) + | #x >nth_change_vec // cases (reverse ? rs0) + [ normalize in ⊢ (%→?); #H destruct (H) + | #r1 #rs1 normalize in ⊢ (%→?); #H destruct (H) ] ] + | * #rs0' * #_ #Hcurtc_src * #td * whd in ⊢ (%→?); * whd in ⊢ (??%?→?); + >(?:nth src ? (current_chars ?? tc) (None ?) = None ?) + [|>nth_current_chars >Hcurtc_src >nth_change_vec_neq + [>nth_change_vec [cases (append ???) // | @Hsrc] + |@(not_to_not … Hneq) // + ]] + normalize in ⊢ (%→?); #H destruct (H) ] + | * #xs * #ci * #cj * #rs'' * #rs0' * * * #Hcicj #Hrs #Hrs0 + #Htc * #td * * #Hmatch #Htd destruct (Htd) * #te * * + >Htc >change_vec_commute // >nth_change_vec // + >change_vec_commute [|@sym_not_eq //] >nth_change_vec // #Hte #_ #Htb + #s' #rs' >Hmidta_src #H destruct (H) + lapply (Hte … (refl ??) … (refl ??) (refl ??)) -Hte + >change_vec_commute // >change_vec_change_vec + >change_vec_commute [|@sym_not_eq //] >change_vec_change_vec #Hte + >Hte in Htb; * * #_ >nth_change_vec // #Htb1 + lapply (Htb1 … (refl ??)) -Htb1 #Htb1 #Htb2 % + [ @(eq_vec … (niltape ?)) #i #Hi + cases (true_or_false ((dst : DeqNat) == i)) #Hdsti + [ <(\P Hdsti) >Htb1 >nth_change_vec // >Hmidta_dst + >Hrs0 >reverse_reverse cases xs [|#r1 #rs1] % + | nth_change_vec_neq [| @(\Pf Hdsti)] + >Hrs0 >reverse_reverse >nth_change_vec_neq in ⊢ (???%); + change_vec_same % ] + | >Hmidta_dst %{s'} % [%] #_ + >Hrs0 %{xs} %{ci} %{rs''} %{ls0} %{cj} %{rs0'} % // % // + ] ] - | >Htc >change_vec_commute // >nth_change_vec // ] -Hte - >Htc >change_vec_commute // >change_vec_change_vec - >change_vec_commute [|@sym_not_eq //] >change_vec_change_vec #Hte - >Hte in Htb; * * #_ >reverse_reverse #Htbdst1 #Htbdst2 -Hte @(eq_vec … (niltape ?)) - #i #Hi cases (decidable_eq_nat i dst) #Hidst - [ >Hidst >nth_change_vec // >(Htbdst1 ls0 s (xs@cj'::rs0')) - [| >nth_change_vec // ] - >Htadst_mid cases xs // - | >nth_change_vec_neq [|@sym_not_eq // ] - nth_change_vec_neq [| @sym_not_eq // ] - change_vec_same % ] - | >Hcurta_src in Htest; whd in ⊢(??%?→?); - >Htc >change_vec_commute // - change with (current ? (niltape ?)) in match (None ?); - nth_change_vec // whd in ⊢ (??%?→?); - cases (is_endc ci) whd in ⊢ (??%?→?); #H destruct (H) % + | lapply (\Pf Hss0) -Hss0 #Hss0 #Htc cut (tc = ta) + [@Htc % % @(not_to_not ??? Hss0) #H destruct (H) %] + -Htc #Htc destruct (Htc) #_ * #td * whd in ⊢ (%→?); * #_ + #Htd destruct (Htd) * #te * * #_ #Hte * * #_ #Htb1 #Htb2 + #s1 #rs1 >Hmidta_src #H destruct (H) + lapply (Hte … Hmidta_src … Hmidta_dst) -Hte #Hte destruct (Hte) % + [ @(eq_vec … (niltape ?)) #i #Hi + cases (true_or_false ((dst : DeqNat) == i)) #Hdsti + [ <(\P Hdsti) >(Htb1 … Hmidta_dst) >nth_change_vec // >Hmidta_dst + cases rs0 [|#r2 #rs2] % + | nth_change_vec_neq [| @(\Pf Hdsti)] % ] + | >Hs0 %{s0} % // #H destruct (H) @False_ind cases (Hss0) /2/ ] + ] ] - ] - ] -|#intape #outtape #ta * #Hcomp1 #Hcomp2 * #tb * * #Hc #Htb - whd in ⊢ (%→?); #Hout >Hout >Htb whd - #ls #c_src #xs #end #rs #Hmid_src #Hnotend #Hend - lapply (current_to_midtape sig (nth dst ? intape (niltape ?))) - cases (current … (nth dst ? intape (niltape ?))) in Hcomp1; - [#Hcomp1 #_ %1 % % [% | @Hcomp1 %2 %2 % ] - |#c_dst cases (true_or_false (c_src == c_dst)) #Hceq - [#_ #Hmid_dst cases (Hmid_dst c_dst (refl …)) -Hmid_dst - #ls_dst * #rs_dst #Hmid_dst - cases (comp_list … (xs@end::rs) rs_dst is_endc) #xs1 * #rsi * #rsj * * * - #Hrs_src #Hrs_dst #Hnotendxs1 #Hneq >Hrs_dst in Hmid_dst; #Hmid_dst - cut (∃r1,rs1.rsi = r1::rs1) [@daemon] * #r1 * #rs1 #Hrs1 >Hrs1 in Hrs_src; - #Hrs_src >Hrs_src in Hmid_src; #Hmid_src <(\P Hceq) in Hmid_dst; #Hmid_dst - lapply (Hcomp2 ??????? Hmid_src Hmid_dst ?) - [ #c0 #Hc0 cases (orb_true_l … Hc0) -Hc0 #Hc0 - [ >(\P Hc0) @Hnotend @memb_hd | @Hnotendxs1 //] ] - * - [ * #Hrsj >Hrsj #Hta % %2 >Hta >nth_change_vec // - %{ls_dst} %{xs1} cut (∃xs0.xs = xs1@xs0) - [lapply Hnotendxs1 -Hnotendxs1 lapply Hrs_src lapply xs elim xs1 - [ #l #_ #_ %{l} % - | #x2 #xs2 #IH * - [ whd in ⊢ (??%%→?); #H destruct (H) #Hnotendxs2 - >Hnotendxs2 in Hend; [ #H destruct (H) |@memb_hd ] - | #x2' #xs2' whd in ⊢ (??%%→?); #H destruct (H) - #Hnotendxs2 cases (IH xs2' e0 ?) - [ #xs0 #Hxs2 %{xs0} @eq_f // - |#c #Hc @Hnotendxs2 @memb_cons // ] - ] - ] - ] * #xs0 #Hxs0 %{xs0} % [ % - [ >Hmid_dst >Hrsj >append_nil % - | @Hxs0 ] - | cases (reverse ? xs1) // ] - | * #cj * #rs2 * #Hrsj #Hta lapply (Hta ?) - [ cases (Hneq ?? Hrs1) /2/ #Hr1 %2 @(Hr1 ?? Hrsj) ] -Hta #Hta - %2 >Hta in Hc; whd in ⊢ (??%?→?); - change with (current ? (niltape ?)) in match (None ?); - nth_change_vec_neq [|@sym_not_eq //] >nth_change_vec // - whd in ⊢ (??%?→?); #Hc cut (is_endc r1 = true) - [ cases (is_endc r1) in Hc; whd in ⊢ (??%?→?); // - change with (current ? (niltape ?)) in match (None ?); - nth_change_vec // normalize #H destruct (H) ] - #Hendr1 cut (xs = xs1) - [ lapply Hnotendxs1 lapply Hnotend lapply Hrs_src lapply xs1 - -Hnotendxs1 -Hnotend -Hrs_src -xs1 elim xs - [ * normalize in ⊢ (%→?); // - #x2 #xs2 normalize in ⊢ (%→?); #Heq destruct (Heq) #_ #Hnotendxs1 - lapply (Hnotendxs1 ? (memb_hd …)) >Hend #H destruct (H) - | #x2 #xs2 #IH * - [ normalize in ⊢ (%→?); #Heq destruct (Heq) #Hnotendc - >Hnotendc in Hendr1; [| @memb_cons @memb_hd ] - normalize in ⊢ (%→?); #H destruct (H) - | #x3 #xs3 normalize in ⊢ (%→?); #Heq destruct (Heq) - #Hnotendc #Hnotendcxs1 @eq_f @IH - [ @(cons_injective_r … Heq) - | #c0 #Hc0 @Hnotendc cases (orb_true_l … Hc0) -Hc0 #Hc0 - [ >(\P Hc0) @memb_hd - | @memb_cons @memb_cons // ] - | #c #Hc @Hnotendcxs1 @memb_cons // ] - ] - ] - | #Hxsxs1 destruct (Hxsxs1) >Hmid_dst %{ls_dst} %{rsj} % // - #rsj0 #c >Hrsj #Hrsj0 destruct (Hrsj0) - lapply (append_l2_injective … Hrs_src) // #Hrs' destruct (Hrs') % - ] - ] - |#Hcomp1 #Hsrc cases (Hsrc ? (refl ??)) -Hsrc #ls0 * #rs0 #Hdst - @False_ind lapply (Hcomp1 ?) [%2 %1 %1 >Hmid_src normalize - @(not_to_not ??? (\Pf Hceq)) #H destruct //] #Hintape >Hintape in Hc; - whd in ⊢(??%?→?); >Hmid_src - change with (current ? (niltape ?)) in match (None ?); - Hmid_src whd in ⊢ (??%?→?); - >(Hnotend c_src) [|@memb_hd] - change with (current ? (niltape ?)) in match (None ?); - Hmid_src whd in ⊢ (??%?→?); >Hdst normalize #H destruct (H) - ] ] -] +| #ta #tb #tc * #Hcomp1 #Hcomp2 * #td * * #Htest #Htd destruct (Htd) + whd in ⊢ (%→?); #Htb destruct (Htb) #ls #x #xs #Hta_src + lapply (refl ? (current ? (nth dst ? ta (niltape ?)))) + cases (current ? (nth dst ? ta (niltape ?))) in ⊢ (???%→?); + [ #Hcurta_dst % % % // @Hcomp1 %2 // + | #x0 #Hcurta_dst cases (current_to_midtape … Hcurta_dst) -Hcurta_dst + #ls0 * #rs0 #Hta_dst cases (true_or_false (x == x0)) #Hxx0 + [ lapply (\P Hxx0) -Hxx0 #Hxx0 destruct (Hxx0) + | >(?:tc=ta) in Htest; + [|@Hcomp1 % % >Hta_src >Hta_dst @(not_to_not ??? (\Pf Hxx0)) normalize + #Hxx0' destruct (Hxx0') % ] + whd in ⊢ (??%?→?); + >nth_current_chars >Hta_src >nth_current_chars >Hta_dst + whd in ⊢ (??%?→?); #Hfalse destruct (Hfalse) ] -Hcomp1 + cases (Hcomp2 … Hta_src Hta_dst) [ * + [ * #rs' * #Hxs #Hcurtc % %2 %{ls0} %{rs0} %{rs'} % + [ % // | >Hcurtc % ] + | * #rs0' * #Hxs #Htc %2 >Htc %{ls0} %{rs0'} % // ] + | * #xs0 * #ci * #cj * #rs' * #rs0' * * * + #Hci #Hxs #Hrs0 #Htc @False_ind + whd in Htest:(??%?); + >(?:nth src ? (current_chars ?? tc) (None ?) = Some ? ci) in Htest; + [|>nth_current_chars >Htc >nth_change_vec_neq [|@(not_to_not … Hneq) //] + >nth_change_vec //] + >(?:nth dst ? (current_chars ?? tc) (None ?) = Some ? cj) + [|>nth_current_chars >Htc >nth_change_vec //] + normalize #H destruct (H) ] ] ] qed. -definition match_m ≝ λsrc,dst,sig,n,is_startc,is_endc. - whileTM … (match_step src dst sig n is_startc is_endc) +definition match_m ≝ λsrc,dst,sig,n. + whileTM … (match_step src dst sig n) (inr ?? (inr ?? (inl … (inr ?? start_nop)))). definition R_match_m ≝ - λsrc,dst,sig,n,is_startc,is_endc.λint,outt: Vector (tape sig) (S n). -(* (current sig (nth dst (tape sig) int (niltape sig)) = None ? → outt = int) ∧ *) - ∀ls,x,xs,end,rs. - nth src ? int (niltape ?) = midtape sig ls x (xs@end::rs) → - (∀c0. memb ? c0 (x::xs) = true → is_endc c0 = false) → is_endc end = true → - (current sig (nth dst (tape sig) int (niltape sig)) = None ? → outt = int) ∧ - (is_startc x = true → - (∀ls0,x0,rs0. - nth dst ? int (niltape ?) = midtape sig ls0 x0 rs0 → - (∃l,l1.x0::rs0 = l@x::xs@l1 ∧ - ∀cj,l2.l1=cj::l2 → - outt = change_vec ?? - (change_vec ?? int (midtape sig (reverse ? xs@x::ls) end rs) src) - (midtape sig ((reverse ? (l@x::xs))@ls0) cj l2) dst) ∨ - ∀l,l1.x0::rs0 ≠ l@x::xs@l1)). + λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n). + ∀x,rs. + nth src ? int (niltape ?) = midtape sig [ ] x rs → + (current sig (nth dst (tape sig) int (niltape sig)) = None ? → + right ? (nth dst (tape sig) int (niltape sig)) = [ ] → outt = int) ∧ + (∀ls0,x0,rs0. + nth dst ? int (niltape ?) = midtape sig ls0 x0 rs0 → + (∃l,l1.x0::rs0 = l@x::rs@l1 ∧ + outt = change_vec ?? + (change_vec ?? int + (mk_tape sig (reverse ? rs@[x]) (None ?) [ ]) src) + (mk_tape sig ((reverse ? (l@x::rs))@ls0) (option_hd ? l1) (tail ? l1)) dst) ∨ + ∀l,l1.x0::rs0 ≠ l@x::rs@l1). -(* -definition R_match_m ≝ - λi,j,sig,n,is_startc,is_endc.λint,outt: Vector (tape sig) (S n). - (((∃x.current ? (nth i ? int (niltape ?)) = Some ? x ∧ is_endc x = true) ∨ - current ? (nth i ? int (niltape ?)) = None ? ∨ - current ? (nth j ? int (niltape ?)) = None ?) → outt = int) ∧ - (∀ls,x,xs,ci,rs,ls0,x0,rs0. - (∀x. is_startc x ≠ is_endc x) → - is_startc x = true → is_endc ci = true → - (∀z. memb ? z (x::xs) = true → is_endc x = false) → - nth i ? int (niltape ?) = midtape sig ls x (xs@ci::rs) → - nth j ? int (niltape ?) = midtape sig ls0 x0 rs0 → - (∃l,l1.x0::rs0 = l@x::xs@l1 ∧ - ∀cj,l2.l1=cj::l2 → - outt = change_vec ?? - (change_vec ?? int (midtape sig (reverse ? xs@x::ls) ci rs) i) - (midtape sig ((reverse ? (l@x::xs))@ls0) cj l2) j) ∨ - ∀l,l1.x0::rs0 ≠ l@x::xs@l1). -*) +lemma not_sub_list_merge : + ∀T.∀a,b:list T. (∀l1.a ≠ b@l1) → (∀t,l,l1.a ≠ t::l@b@l1) → ∀l,l1.a ≠ l@b@l1. +#T #a #b #H1 #H2 #l elim l normalize // +qed. + +lemma not_sub_list_merge_2 : + ∀T:DeqSet.∀a,b:list T.∀t. (∀l1.t::a ≠ b@l1) → (∀l,l1.a ≠ l@b@l1) → ∀l,l1.t::a ≠ l@b@l1. +#T #a #b #t #H1 #H2 #l elim l // +#t0 #l1 #IH #l2 cases (true_or_false (t == t0)) #Htt0 +[ >(\P Htt0) % normalize #H destruct (H) cases (H2 l1 l2) /2/ +| normalize % #H destruct (H) cases (\Pf Htt0) /2/ ] +qed. -(* -axiom sub_list_dec: ∀A.∀l,ls:list A. - ∃l1,l2. l = l1@ls@l2 ∨ ∀l1,l2. l ≠ l1@ls@l2. -*) -lemma wsem_match_m : ∀src,dst,sig,n,is_startc,is_endc. +lemma wsem_match_m : ∀src,dst,sig,n. src ≠ dst → src < S n → dst < S n → - match_m src dst sig n is_startc is_endc ⊫ R_match_m src dst sig n is_startc is_endc. -#src #dst #sig #n #is_startc #is_endc #Hneq #Hsrc #Hdst #ta #k #outc #Hloop -lapply (sem_while … (sem_match_step src dst sig n is_startc is_endc Hneq Hsrc Hdst) … Hloop) // + match_m src dst sig n ⊫ R_match_m src dst sig n. +#src #dst #sig #n #Hneq #Hsrc #Hdst #ta #k #outc #Hloop +lapply (sem_while … (sem_match_step src dst sig n Hneq Hsrc Hdst) … Hloop) // -Hloop * #tb * #Hstar @(star_ind_l ??????? Hstar) -Hstar -[ #tc #Hfalse #ls #x #xs #end #rs #Hmid_src #Hnotend #Hend - cases (Hfalse … Hmid_src Hnotend Hend) -Hfalse +[ #Hfalse #x #xs #Hmid_src + cases (Hfalse … Hmid_src) -Hfalse [(* current dest = None *) * [ * #Hcur_dst #Houtc % [#_ >Houtc // - |#Hstart #ls0 #x0 #rs0 #Hmid_dst >Hmid_dst in Hcur_dst; - normalize in ⊢ (%→?); #H destruct (H) + | #ls0 #x0 #rs0 #Hmid_dst >Hmid_dst in Hcur_dst; + normalize in ⊢ (%→?); #H destruct (H) ] | * #ls0 * #rs0 * #xs0 * * #Htc_dst #Hrs0 #HNone % [ >Htc_dst normalize in ⊢ (%→?); #H destruct (H) - | #Hstart #ls1 #x1 #rs1 >Htc_dst #H destruct (H) - >Hrs0 cases xs0 + | #ls1 #x1 #rs1 >Htc_dst #H destruct (H) + >Hrs0 >HNone cases xs0 [ % %{[ ]} %{[ ]} % [ >append_nil >append_nil %] - #cj #ls2 #H destruct (H) + @eq_f3 // + [ >reverse_append % + | >reverse_append >reverse_cons >reverse_append + >associative_append >associative_append % ] | #x2 #xs2 %2 #l #l1 % #Habs lapply (eq_f ?? (length ?) ?? Habs) >length_append whd in ⊢ (??%(??%)→?); >length_append >length_append normalize >commutative_plus whd in ⊢ (???%→?); @@ -355,66 +401,130 @@ lapply (sem_while … (sem_match_step src dst sig n is_startc is_endc Hneq Hsrc ] ] ] - |* #ls0 * #rs0 * #Hmid_dst #HFalse % + |* #ls0 * #rs0 * #Hmid_dst #Houtc % [ >Hmid_dst normalize in ⊢ (%→?); #H destruct (H) - | #Hstart #ls1 #x1 #rs1 >Hmid_dst #H destruct (H) - %1 %{[ ]} %{rs0} % [%] #cj #l2 #Hnotnil - >reverse_cons >associative_append @(HFalse ?? Hnotnil) + |#ls1 #x1 #rs1 >Hmid_dst #H destruct (H) + %1 %{[ ]} %{rs0} % [%] + >reverse_cons >associative_append >Houtc % ] ] -|#ta #tb #tc #Htrue #Hstar #IH #Hout lapply (IH Hout) -IH -Hout #IH whd - #ls #x #xs #end #rs #Hmid_src #Hnotend #Hend +|-ta #ta #tc #Htrue #Hstar #IH #Hout lapply (IH Hout) -IH -Hout #IH whd + #x #xs #Hmidta_src lapply (refl ? (current ? (nth dst ? ta (niltape ?)))) cases (current ? (nth dst ? ta (niltape ?))) in ⊢ (???%→?); - [#Hmid_dst % - [#_ whd in Htrue; >Hmid_src in Htrue; #Htrue - cases (Htrue x (refl … )) -Htrue * #Htaneq #_ - @False_ind >Hmid_dst in Htaneq; /2/ - |#Hstart #ls0 #x0 #rs0 #Hmid_dst2 >Hmid_dst2 in Hmid_dst; normalize in ⊢ (%→?); - #H destruct (H) + [#Hcurta_dst % + [#Hcurta_dst #Hrightta_dst whd in Htrue; >Hmidta_src in Htrue; #Htrue + cases (Htrue ?? (refl ??)) -Htrue #Htc + cut (tc = ta) + [ >Htc whd in match (tape_move_mono ???); whd in match (tape_write ???); + <(change_vec_same … ta dst (niltape ?)) in ⊢ (???%); + lapply Hrightta_dst lapply Hcurta_dst -Hrightta_dst -Hcurta_dst + cases (nth dst ? ta (niltape ?)) + [ #_ #_ % + | #r0 #rs0 #_ normalize in ⊢ (%→?); #H destruct (H) + | #l0 #ls0 #_ #_ % + | #ls #x0 #rs normalize in ⊢ (%→?); #H destruct (H) ] ] + -Htc #Htc destruct (Htc) #_ + cases (IH … Hmidta_src) #Houtc #_ @Houtc // + |#ls0 #x0 #rs0 #Hmidta_dst >Hmidta_dst in Hcurta_dst; + normalize in ⊢ (%→?); #H destruct (H) ] | #c #Hcurta_dst % [ >Hcurta_dst #H destruct (H) ] - #Hstart #ls0 #x0 #rs0 #Hmid_dst >Hmid_dst in Hcurta_dst; normalize in ⊢ (%→?); - #H destruct (H) whd in Htrue; >Hmid_src in Htrue; #Htrue - cases (Htrue x (refl …)) -Htrue #_ #Htrue cases (Htrue Hstart ?) -Htrue - [2: #z #membz @daemon (*aggiungere l'ipotesi*)] + #ls0 #x0 #rs0 #Hmidta_dst >Hmidta_dst in Hcurta_dst; normalize in ⊢ (%→?); + #H destruct (H) whd in Htrue; >Hmidta_src in Htrue; #Htrue + cases (Htrue ?? (refl …)) -Htrue >Hmidta_dst #Htc cases (true_or_false (x==c)) #eqx - [ #_ #Htrue cases (comp_list ? (xs@end::rs) rs0 is_endc) - #x1 * #tl1 * #tl2 * * * #Hxs #Hrs0 #Hnotendx1 - cases tl1 in Hxs; - [>append_nil #Hx1 @daemon (* absurd by Hx1 e notendx1 *)] - #ci -tl1 #tl1 #Hxs #H cases (H … (refl … )) - [(* this is absurd, since Htrue conlcudes is_endc ci =false *) - #Hend_ci @daemon (* lapply(Htrue … (refl …)) -Htrue *) - |cases tl2 in Hrs0; - [ - | #cj #tl2' #Hrs0 #Hcomp lapply (Htrue ls x x1 ci cj tl1 ls0 tl2' ????) - [ @(Hcomp ?? (refl ??)) - | #c0 #Hc0 cases (orb_true_l … Hc0) #Hc0 - [ @Hnotend >(\P Hc0) @memb_hd - | @Hnotendx1 // ] - | >Hmid_dst >Hrs0 >(\P eqx) % - | >Hxs % - | * #Htb >Htb #Hendci %2 >Hrs0 >Hxs - cases (IH ls x xs end rs ? Hnotend Hend) [| - STOP - - - - >nth_change_vec_neq [|@sym_not_eq //] >nth_change_vec // - - >Hrs0 in Hmid_dst; #Hmid_dst - cases(Htrue ???????? Hmid_dst) -Htrue #Htb #Hendx - whd in IH; - cases(IH ls x xs end rs ? Hstart Hnotend Hend) - [* #H1 #H2 >Htb in H1; >nth_change_vec // - >Hmid_dst cases rs0 [2: #a #tl normalize in ⊢ (%→?); #H destruct (H)] - #_ %2 @daemon (* si dimostra *) - |@daemon - |>Htb >nth_change_vec_neq [|@sym_not_eq //] @Hmid_src - ] + [ lapply (\P eqx) -eqx #eqx destruct (eqx) * #s0 * whd in ⊢ (??%?→?); #Hs0 + destruct (Hs0) #Htrue cases (Htrue (refl ??)) -Htrue + #xs0 * #ci * #rs' * #ls1 * #cj * #rs1 * * #Hxs #H destruct (H) #Hcicj + >Htc in IH; whd in ⊢ (%→?); >nth_change_vec_neq [|@sym_not_eq //] + #IH cases (IH … Hmidta_src) -IH #_ >nth_change_vec // + cut (∃x1,xs1.xs0@cj::rs1 = x1::xs1) + [ cases xs0 [ %{cj} %{rs1} % | #x1 #xs1 %{x1} %{(xs1@cj::rs1)} % ] ] * #x1 * #xs1 + #Hxs1 >Hxs1 #IH cases (IH … (refl ??)) -IH + [ * #l * #l1 * #Hxs1' + >change_vec_commute // >change_vec_change_vec + #Houtc % %{(s0::l)} %{l1} % + [ normalize reverse_cons >associative_append >change_vec_commute // @Houtc ] + | #H %2 #l #l1 >(?:l@s0::xs@l1 = l@(s0::xs)@l1) [|%] + @not_sub_list_merge + [ #l2 >Hxs associative_append #H2 lapply (append_l2_injective ????? (refl ??) H2) + #H3 lapply (cons_injective_l ????? H3) #H3 >H3 in Hcicj; * /2/ + |#t #l2 #l3 % normalize #H1 lapply (cons_injective_r ????? H1) + -H1 #H1 cases (H l2 l3) #H2 @H2 @H1 + ] + ] + | #_ cases (IH x xs ?) -IH + [| >Htc >nth_change_vec_neq [|@sym_not_eq //] @Hmidta_src ] + >Htc >nth_change_vec // cases rs0 + [ #_ #_ %2 #l #l1 cases l + [ normalize cases xs + [ cases l1 + [ normalize % #H destruct (H) cases (\Pf eqx) /2/ + | #tmp1 #l2 normalize % #H destruct (H) ] + | #tmp1 #l2 normalize % #H destruct (H) ] + | #tmp1 #l2 normalize % #H destruct (H)cases l2 in e0; + [ normalize #H1 destruct (H1) + | #tmp2 #l3 normalize #H1 destruct (H1) ] ] + | #r1 #rs1 #_ #IH cases (IH … (refl ??)) -IH + [ * #l * #l1 * #Hll1 #Houtc % %{(c::l)} %{l1} % [ >Hll1 % ] + >Houtc >change_vec_commute // >change_vec_change_vec + >change_vec_commute [|@sym_not_eq //] + >reverse_cons >associative_append % + | #Hll1 %2 @(not_sub_list_merge_2 ?? (x::xs)) normalize [|@Hll1] + #l1 % #H destruct (H) cases (\Pf eqx) /2/ + ] + ] ] ] ] qed. +definition Pre_match_m ≝ + λsrc,sig,n.λt: Vector (tape sig) (S n). + ∃x,xs. + nth src (tape sig) t (niltape sig) = midtape ? [] x xs. + +lemma terminate_match_m : + ∀src,dst,sig,n,t. + src ≠ dst → src < S n → dst < S n → + Pre_match_m src sig n t → + match_m src dst sig n ↓ t. +#src #dst #sig #n #t #Hneq #Hsrc #Hdst * #start * #xs +#Hmid_src +@(terminate_while … (sem_match_step src dst sig n Hneq Hsrc Hdst)) // +<(change_vec_same … t dst (niltape ?)) +lapply (refl ? (nth dst (tape sig) t (niltape ?))) +cases (nth dst (tape sig) t (niltape ?)) in ⊢ (???%→?); +[ #Htape_dst % #t1 whd in ⊢ (%→?); >nth_change_vec_neq [|@sym_not_eq //] + >Hmid_src #HR cases (HR ?? (refl ??)) -HR + >nth_change_vec // >Htape_dst #_ * #s0 * normalize in ⊢ (%→?); #H destruct (H) +| #x0 #xs0 #Htape_dst % #t1 whd in ⊢ (%→?); >nth_change_vec_neq [|@sym_not_eq //] + >Hmid_src #HR cases (HR ?? (refl ??)) -HR + >nth_change_vec // >Htape_dst #_ normalize in ⊢ (%→?); + * #s0 * #H destruct (H) +| #x0 #xs0 #Htape_dst % #t1 whd in ⊢ (%→?); >nth_change_vec_neq [|@sym_not_eq //] + >Hmid_src #HR cases (HR ?? (refl ??)) -HR + >nth_change_vec // >Htape_dst #_ normalize in ⊢ (%→?); + * #s0 * #H destruct (H) +| #ls #s #rs lapply s -s lapply ls -ls lapply Hmid_src lapply t -t elim rs + [#t #Hmid_src #ls #s #Hmid_dst % #t1 whd in ⊢ (%→?); >nth_change_vec_neq [|@sym_not_eq //] + >Hmid_src >nth_change_vec // >Hmid_dst #HR cases (HR ?? (refl ??)) -HR + >change_vec_change_vec #Ht1 #_ % #t2 whd in ⊢ (%→?); + >Ht1 >nth_change_vec_neq [|@sym_not_eq //] >Hmid_src #HR + cases (HR ?? (refl ??)) -HR #_ + >nth_change_vec // * #s1 * normalize in ⊢ (%→?); #H destruct (H) + |#r0 #rs0 #IH #t #Hmid_src #ls #s #Hmid_dst % #t1 whd in ⊢ (%→?); + >nth_change_vec_neq [|@sym_not_eq //] >Hmid_src + #Htrue cases (Htrue ?? (refl ??)) -Htrue >change_vec_change_vec + >nth_change_vec // >Hmid_dst whd in match (tape_move_mono ???); #Ht1 + * #s0 * whd in ⊢ (??%?→?); #H destruct (H) #_ >Ht1 + lapply (IH t1 ? (s0::ls) r0 ?) + [ >Ht1 >nth_change_vec // + | >Ht1 >nth_change_vec_neq [|@sym_not_eq //] @Hmid_src + | >Ht1 >nth_change_vec // ] + ] +] +qed. \ No newline at end of file