cfg_to_obj
*)
+definition copy_char_states ≝ initN 3.
+
+definition cc0 : copy_states ≝ mk_Sig ?? 0 (leb_true_to_le 1 3 (refl …)).
+definition cc1 : copy_states ≝ mk_Sig ?? 1 (leb_true_to_le 2 3 (refl …)).
+
+definition trans_copy_char ≝
+ λsrc,dst.λsig:FinSet.λn.
+ λp:copy_char_states × (Vector (option sig) (S n)).
+ let 〈q,a〉 ≝ p in
+ match pi1 … q with
+ [ O ⇒ 〈cc1,change_vec ? (S n)
+ (change_vec ? (S n) (null_action ? n) (〈None ?,R〉) src)
+ (〈nth src ? a (None ?),R〉) dst〉
+ | S _ ⇒ 〈cc1,null_action ? n〉 ].
+
+definition copy_char ≝
+ λsrc,dst,sig,n.
+ mk_mTM sig n copy_char_states (trans_copy_char src dst sig n)
+ cc0 (λq.q == cc1).
+
+definition R_copy_char ≝
+ λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n).
+ outt = change_vec ??
+ (change_vec ?? int
+ (tape_move_mono ? (nth src ? int (niltape ?)) 〈None ?, R〉) src)
+ (tape_move_mono ? (nth dst ? int (niltape ?))
+ 〈current ? (nth src ? int (niltape ?)), R〉) dst.
+
+lemma copy_char_q0_q1 :
+ ∀src,dst,sig,n,v.src ≠ dst → src < S n → dst < S n →
+ step sig n (copy_char src dst sig n) (mk_mconfig ??? cc0 v) =
+ mk_mconfig ??? cc1
+ (change_vec ? (S n)
+ (change_vec ?? v
+ (tape_move_mono ? (nth src ? v (niltape ?)) 〈None ?, R〉) src)
+ (tape_move_mono ? (nth dst ? v (niltape ?)) 〈current ? (nth src ? v (niltape ?)), R〉) dst).
+#src #dst #sig #n #v #Heq #Hsrc #Hdst
+whd in ⊢ (??%?);
+<(change_vec_same … v dst (niltape ?)) in ⊢ (??%?);
+<(change_vec_same … v src (niltape ?)) in ⊢ (??%?);
+>tape_move_multi_def @eq_f2 //
+>pmap_change >pmap_change <tape_move_multi_def
+>tape_move_null_action @eq_f2 // @eq_f2
+[ >change_vec_same %
+| >change_vec_same >change_vec_same // ]
+qed.
+
+lemma sem_copy_char:
+ ∀src,dst,sig,n.src ≠ dst → src < S n → dst < S n →
+ copy_char src dst sig n ⊨ R_copy_char src dst sig n.
+#src #dst #sig #n #Hneq #Hsrc #Hdst #int
+%{2} % [| % [ % | whd >copy_char_q0_q1 // ]]
+qed.
+
definition obj ≝ (0:DeqNat).
definition cfg ≝ (1:DeqNat).
definition prg ≝ (2:DeqNat).
definition obj_to_cfg ≝
mmove cfg FSUnialpha 2 L ·
(ifTM ?? (inject_TM ? (test_null ?) 2 obj)
- (copy_step obj cfg FSUnialpha 2 ·
+ (copy_char obj cfg FSUnialpha 2 ·
mmove cfg FSUnialpha 2 L ·
mmove obj FSUnialpha 2 L)
(inject_TM ? (write FSUnialpha null) 2 cfg)
(mk_tape ? [ ] (option_hd FSUnialpha (reverse ? (null::ls)))
(tail ? (reverse ? (null::ls)))) cfg).
-axiom sem_move_to_end_l : ∀sig. move_to_end sig L ⊨ R_move_to_end_l sig.
axiom accRealize_to_Realize :
∀sig,n.∀M:mTM sig n.∀Rtrue,Rfalse,acc.
M ⊨ [ acc: Rtrue, Rfalse ] → M ⊨ Rtrue ∪ Rfalse.
#alpha #a #al %
qed.
-axiom daemon : ∀P:Prop.P.
-
definition option_cons ≝ λsig.λc:option sig.λl.
match c with [ None ⇒ l | Some c0 ⇒ c0::l ].
normalize //
qed.
+lemma eq_vec_change_vec : ∀sig,n.∀v1,v2:Vector sig n.∀i,t,d.
+ nth i ? v2 d = t →
+ (∀j.i ≠ j → nth j ? v1 d = nth j ? v2 d) →
+ v2 = change_vec ?? v1 t i.
+#sig #n #v1 #v2 #i #t #d #H1 #H2 @(eq_vec … d)
+#i0 #Hlt cases (decidable_eq_nat i0 i) #Hii0
+[ >Hii0 >nth_change_vec //
+| >nth_change_vec_neq [|@sym_not_eq //] @sym_eq @H2 @sym_not_eq // ]
+qed.
+
lemma sem_obj_to_cfg : obj_to_cfg ⊨ R_obj_to_cfg.
@(sem_seq_app FSUnialpha 2 ????? (sem_move_multi ? 2 cfg L ?)
(sem_seq ??????
(sem_if ??????????
(sem_test_null_multi ?? obj ?)
- (sem_seq ?????? (accRealize_to_Realize … (sem_copy_step …))
+ (sem_seq ?????? (sem_copy_char …)
(sem_seq ?????? (sem_move_multi ? 2 cfg L ?)
(sem_move_multi ? 2 obj L ?)))
(sem_inject ???? cfg ? (sem_write FSUnialpha null)))
#tc * whd in ⊢ (%→?); #Htc *
#td * *
[ * #te * * #Hcurtc #Hte
- * destruct (Hte) #te * *
- [ whd in ⊢ (%→%→?); * #x * #y * * -Hcurtc #Hcurtc1 #Hcurtc2 #Hte
+ * destruct (Hte) #te * whd in ⊢ (%→?); #Hte
+ cut (∃x.current ? (nth obj ? tc (niltape ?)) = Some ? x)
+ [ cases (current ? (nth obj ? tc (niltape ?))) in Hcurtc;
+ [ * #H @False_ind /2/ | #x #_ %{x} % ] ] * #x #Hcurtc'
+(* [ whd in ⊢ (%→%→?); * #x * #y * * -Hcurtc #Hcurtc1 #Hcurtc2 #Hte *)
* #tf * whd in ⊢ (%→%→?); #Htf #Htd
* #tg * * * whd in ⊢ (%→%→%→%→?); #Htg1 #Htg2 #Htg3 #Htb
#c #ls #Hta1 %
[ #lso #x0 #rso #Hta2 >Hta1 in Htc; >eq_mk_tape_rightof
whd in match (tape_move ???); #Htc
cut (tg = change_vec ?? td (mk_tape ? [ ] (None ?) (reverse ? ls@[x])) cfg)
- [@daemon] -Htg1 -Htg2 -Htg3 #Htg destruct (Htg Htf Hte Htd Htc Htb)
+ [ lapply (eq_vec_change_vec ??????? (Htg2 ls x [ ] ?) Htg3) //
+ >Htd >nth_change_vec_neq // >Htf >nth_change_vec //
+ >Hte >Hcurtc' >nth_change_vec // >Htc >nth_change_vec // ]
+ -Htg1 -Htg2 -Htg3 #Htg destruct
>change_vec_change_vec >change_vec_change_vec
>change_vec_commute // >change_vec_change_vec
>change_vec_commute [|@sym_not_eq //] >change_vec_change_vec
[ #Hta2 whd in match (tape_move ???); <Hta2 @change_vec_same
| #r1 #rs1 #Hta2 whd in match (tape_move ???); <Hta2 @change_vec_same ]
| >tape_move_mk_tape_R [| #_ % %] >reverse_cons
- >nth_change_vec_neq in Hcurtc1; [|@sym_not_eq //] >Hta2
+ >nth_change_vec_neq in Hcurtc'; [|@sym_not_eq //] >Hta2
normalize in ⊢ (%→?); #H destruct (H) %
]
- | #Hta2 >Htc in Hcurtc1; >nth_change_vec_neq [| @sym_not_eq //]
+ | #Hta2 >Htc in Hcurtc'; >nth_change_vec_neq [| @sym_not_eq //]
>Hta2 #H destruct (H)
]
- | * #Hcurtc0 #Hte #_ #_ #c #ls #Hta1 >Hta1 in Htc; >eq_mk_tape_rightof
- whd in match (tape_move ???); #Htc >Htc in Hcurtc0; *
- [ >Htc in Hcurtc; >nth_change_vec_neq [|@sym_not_eq //]
- #Hcurtc #Hcurtc0 >Hcurtc0 in Hcurtc; * #H @False_ind @H %
- | >nth_change_vec // normalize in ⊢ (%→?); #H destruct (H) ]
- ]
| * #te * * #Hcurtc #Hte
* whd in ⊢ (%→%→?); #Htd1 #Htd2
* #tf * * * #Htf1 #Htf2 #Htf3 whd in ⊢ (%→?); #Htb
>Hta2 normalize in ⊢ (%→?); #H destruct (H)
| #_ >Hta1 in Htc; >eq_mk_tape_rightof whd in match (tape_move ???); #Htc
destruct (Hte) cut (td = change_vec ?? tc (midtape ? ls null []) cfg)
- [@daemon] -Htd1 -Htd2 #Htd
+ [ lapply (eq_vec_change_vec ??????? (Htd1 ls c [ ] ?) Htd2) //
+ >Htc >nth_change_vec // ] -Htd1 -Htd2 #Htd
-Htf1 cut (tf = change_vec ?? td (mk_tape ? [ ] (None ?) (reverse ? ls@[null])) cfg)
- [@daemon] -Htf2 -Htf3 #Htf destruct (Htf Htd Htc Htb)
+ [ lapply (eq_vec_change_vec ??????? (Htf2 ls null [ ] ?) Htf3) //
+ >Htd >nth_change_vec // ] -Htf2 -Htf3 #Htf destruct (Htf Htd Htc Htb)
>change_vec_change_vec >change_vec_change_vec >change_vec_change_vec
>change_vec_change_vec >change_vec_change_vec >nth_change_vec //
>reverse_cons >tape_move_mk_tape_R /2/ ]
| <Houtc % ] ]
qed.
-definition copy_char_states ≝ initN 3.
-
-definition cc0 : copy_states ≝ mk_Sig ?? 0 (leb_true_to_le 1 3 (refl …)).
-definition cc1 : copy_states ≝ mk_Sig ?? 1 (leb_true_to_le 2 3 (refl …)).
-
-definition trans_copy_char ≝
- λsrc,dst.λsig:FinSet.λn.
- λp:copy_char_states × (Vector (option sig) (S n)).
- let 〈q,a〉 ≝ p in
- match pi1 … q with
- [ O ⇒ 〈cc1,change_vec ? (S n)
- (change_vec ? (S n) (null_action ? n) (〈None ?,R〉) src)
- (〈nth src ? a (None ?),R〉) dst〉
- | S _ ⇒ 〈cc1,null_action ? n〉 ].
-
-definition copy_char ≝
- λsrc,dst,sig,n.
- mk_mTM sig n copy_char_states (trans_copy_char src dst sig n)
- cc0 (λq.q == cc1).
-
-definition R_copy_char ≝
- λsrc,dst,sig,n.λint,outt: Vector (tape sig) (S n).
- outt = change_vec ??
- (change_vec ?? int
- (tape_move_mono ? (nth src ? int (niltape ?)) 〈None ?, R〉) src)
- (tape_move_mono ? (nth dst ? int (niltape ?))
- 〈current ? (nth src ? int (niltape ?)), R〉) dst.
-
-lemma copy_char_q0_q1 :
- ∀src,dst,sig,n,v.src ≠ dst → src < S n → dst < S n →
- step sig n (copy_char src dst sig n) (mk_mconfig ??? cc0 v) =
- mk_mconfig ??? cc1
- (change_vec ? (S n)
- (change_vec ?? v
- (tape_move_mono ? (nth src ? v (niltape ?)) 〈None ?, R〉) src)
- (tape_move_mono ? (nth dst ? v (niltape ?)) 〈current ? (nth src ? v (niltape ?)), R〉) dst).
-#src #dst #sig #n #v #Heq #Hsrc #Hdst
-whd in ⊢ (??%?);
-<(change_vec_same … v dst (niltape ?)) in ⊢ (??%?);
-<(change_vec_same … v src (niltape ?)) in ⊢ (??%?);
->tape_move_multi_def @eq_f2 //
->pmap_change >pmap_change <tape_move_multi_def
->tape_move_null_action @eq_f2 // @eq_f2
-[ >change_vec_same %
-| >change_vec_same >change_vec_same // ]
-qed.
-
-lemma sem_copy_char:
- ∀src,dst,sig,n.src ≠ dst → src < S n → dst < S n →
- copy_char src dst sig n ⊨ R_copy_char src dst sig n.
-#src #dst #sig #n #Hneq #Hsrc #Hdst #int
-%{2} % [| % [ % | whd >copy_char_q0_q1 // ]]
-qed.
-
definition cfg_to_obj ≝
mmove cfg FSUnialpha 2 L ·
(ifTM ?? (inject_TM ? test_null_char 2 cfg)
whd in ⊢ (%→?); #Htb
#c #ls #Hta %
[ #Hc >Hta in Htc; >eq_mk_tape_rightof whd in match (tape_move ???); #Htc
- cut (te = tc) [@daemon] -Hte1 -Hte2 #Hte
+ cut (te = tc)
+ [ lapply (eq_vec_change_vec ??????? (sym_eq … Hte1) Hte2) >change_vec_same // ]
+ -Hte1 -Hte2 #Hte
cut (tf = change_vec ? 3 te (mk_tape ? [ ] (None ?) (reverse ? ls@[c])) cfg)
- [@daemon] -Htf1 -Htf2 -Htf3 #Htf
+ [ lapply (eq_vec_change_vec ??????? (Htf2 ls c [ ] ?) Htf3) //
+ >Hte >Htc >nth_change_vec // ] -Htf1 -Htf2 -Htf3 #Htf
destruct (Htf Hte Htc Htb)
>change_vec_change_vec >change_vec_change_vec >change_vec_change_vec
>nth_change_vec // >tape_move_mk_tape_R [| #_ % % ]
#c #ls #Hta % #Hc
[ >Htc in Hcurtc; >Hta >nth_change_vec // >tape_move_mk_tape_L //
>Hc normalize in ⊢ (%→?); * #H @False_ind /2/
- | cut (te = tc) [ @daemon ] -Hte1 -Hte2 #Hte
+ | cut (te = tc)
+ [ lapply (eq_vec_change_vec ??????? (sym_eq … Hte1) Hte2)
+ >change_vec_same // ] -Hte1 -Hte2 #Hte
cut (th = change_vec ?? td (mk_tape ? [ ] (None ?) (reverse ? ls@[c])) cfg)
- [@daemon] -Hth1 -Hth2 -Hth3 #Hth
+ [ lapply (eq_vec_change_vec ??????? (Hth2 ls c [ ] ?) Hth3) //
+ >Htd >nth_change_vec_neq // >Htg >nth_change_vec //
+ >Htf >nth_change_vec_neq // >nth_change_vec //
+ >Hte >Htc >nth_change_vec // >Hta // ] -Hth1 -Hth2 -Hth3 #Hth
destruct (Hth Hte Hta Htb Htd Htg Htc Htf)
>change_vec_change_vec >change_vec_change_vec
>change_vec_commute // >change_vec_change_vec
cases HR -HR
[ * #tb * * * * #c * #Hcurta_prg #Hc lapply (\P Hc) -Hc #Hc #Htb1 #Htb2
whd in ⊢ (%→%); #Houtc >Houtc -Houtc % [ %
- [ >Hcurta_prg #H destruct (H) >(?:tb = ta) [|@daemon] %
+ [ >Hcurta_prg #H destruct (H) >(?:tb = ta)
+ [| lapply (eq_vec_change_vec ??????? Htb1 Htb2)
+ >change_vec_same // ] %
| >Hcurta_prg #H destruct (H) destruct (Hc) ]
| >Hcurta_prg >Hc * #H @False_ind /2/ ]
-| * #tb * * * #Hnotfalse #Htb1 #Htb2 cut (tb = ta) [@daemon] -Htb1 -Htb2
- #Htb destruct (Htb) *
+| * #tb * * * #Hnotfalse #Htb1 #Htb2 cut (tb = ta)
+ [ lapply (eq_vec_change_vec ??????? Htb1 Htb2)
+ >change_vec_same // ] -Htb1 -Htb2 #Htb destruct (Htb) *
[ * #tc * * * * #c * #Hcurta_prg #Hc lapply (\P Hc) -Hc #Hc #Htc1 #Htc2
whd in ⊢ (%→%); #Houtc >Houtc -Houtc % [ %
[ >Hcurta_prg #H destruct (H) destruct (Hc)
- | >Hcurta_prg #H destruct (H) >(?:tc = ta) [|@daemon] % ]
+ | >Hcurta_prg #H destruct (H) >(?:tc = ta)
+ [| lapply (eq_vec_change_vec ??????? Htc1 Htc2)
+ >change_vec_same // ] % ]
| >Hcurta_prg >Hc #_ * #H @False_ind /2/ ]
- | * #tc * * * #Hnottrue #Htc1 #Htc2 cut (tc = ta) [@daemon] -Htc1 -Htc2
+ | * #tc * * * #Hnottrue #Htc1 #Htc2 cut (tc = ta)
+ [ lapply (eq_vec_change_vec ??????? Htc1 Htc2)
+ >change_vec_same // ] -Htc1 -Htc2
#Htc destruct (Htc) whd in ⊢ (%→?); #Houtc % [ %
[ #Hcurta_prg lapply (\Pf (Hnotfalse ? Hcurta_prg)) * #H @False_ind /2/
| #Hcurta_prg lapply (\Pf (Hnottrue ? Hcurta_prg)) * #H @False_ind /2/ ]
>Ht1 >prg_low_tapes //
]
qed.
-
-
-
-
\ No newline at end of file