definition Rtc_multi_false ≝
λalpha,test,n,i.λt1,t2:Vector ? (S n).
(∀c. current alpha (nth i ? t1 (niltape ?)) = Some ? c → test c = false) ∧ t2 = t1.
+
+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).
+
+definition R_match_step_false ≝
+ λsrc,dst,sig,n,is_endc.λint,outt: Vector (tape sig) (S n).
+ (((∃x.current ? (nth src ? int (niltape ?)) = Some ? x ∧ is_endc x = true) ∨
+ (* current ? (nth src ? int (niltape ?)) ≠ current ? (nth dst ? int (niltape ?)) ∨ *)
+ current sig (nth src (tape sig) int (niltape sig)) = None ? ∨
+ current sig (nth dst (tape sig) int (niltape sig)) = None ? ) → outt = int) ∧
+ (∀ls,ls0,x,x0,rs,rs0.
+ nth src ? int (niltape ?) = midtape sig ls x rs →
+ nth dst ? int (niltape ?) = midtape sig ls0 x0 rs0 →
+ x ≠ x0 ∨
+ (x = x0 ∧
+ ∀xs,end,rs',rs0'.rs = xs@end::rs' → rs0 = xs@rs0' →
+ (∀c0. memb ? c0 (x::xs) = true → is_endc c0 = false) →
+ is_endc end = false ∨
+ (is_endc end = true ∧
+ outt = change_vec ??
+ (change_vec ?? int (midtape sig (reverse ? xs@x::ls) end rs) src)
+ (mk_tape sig (reverse ? xs@x::ls0) (option_hd ? rs0) (tail ? rs0)) dst))).
+
+ ∀ls,ls0,rs,rs0,x,xs,end.
+ (∀c0. memb ? c0 (x::xs) = true → is_endc c0 = false) →
+ nth src ? int (niltape ?) = midtape sig ls x (xs@end::rs) →
+ nth dst ? int (niltape ?) = midtape sig ls0 x (xs@rs0) →
+ is_endc end = false ∨
+ (is_endc end = true ∧
+ outt = change_vec ??
+ (change_vec ?? int (midtape sig (reverse ? xs@x::ls) end rs) src)
+ (mk_tape sig (reverse ? xs@x::ls0) (option_hd ? rs0) (tail ? rs0)) dst)).
+
+(*
definition R_match_step_false ≝
λsrc,dst,sig,n,is_endc.λint,outt: Vector (tape sig) (S n).
(((∃x.current ? (nth src ? int (niltape ?)) = Some ? x ∧ is_endc x = true) ∨
(change_vec ?? int (midtape sig (reverse ? xs@x::ls) end rsi) src)
(midtape sig (reverse ? xs@x::ls0) c rsj) dst.
+*)
+
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 →
match_step src dst sig n is_startc is_endc ⊨
[ 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 ].
+ R_match_step_false src dst sig n is_endc ].
+@daemon
+(*
#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_test_char_multi sig (λa.is_endc a == false) n src (le_S_S_to_le … Hsrc))
]
]
]
+*)
qed.
definition match_m ≝ λsrc,dst,sig,n,is_startc,is_endc.
whileTM … (match_step src dst sig n is_startc is_endc)
(inr ?? (inr ?? (inl … (inr ?? start_nop)))).
+(*
definition R_match_m ≝
λi,j,sig,n,is_startc,is_endc.λint,outt: Vector (tape sig) (S n).
+ ∀ls,x,rs,ls0,x0,rs0.
+ nth i ? int (niltape ?) = midtape sig ls x rs →
+ nth j ? int (niltape ?) = midtape sig ls0 x0 rs0 →
+
+ ,xs,ci,rs,ls0,x0,rs0.
+ is_startc x = true → is_endc ci = true →
+ (∀c0.c0 ∈ (x::xs) = true → is_endc c0 = false) →
+ nth i ? int (niltape ?) = midtape sig ls x (xs@ci::rs) →
+ nth j ? int (niltape ?) = midtape sig ls0 x0 rs0 →
+
(((∃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.
is_startc x = true → is_endc ci = true →
+ (∀c0.c0 ∈ (x::xs) = true → is_endc c0 = false) →
nth i ? int (niltape ?) = midtape sig ls x (xs@ci::rs) →
nth j ? int (niltape ?) = midtape sig ls0 x0 rs0 →
∃l,cj,l1.x0::rs0 = l@x::xs@cj::l1 ∧
outt = change_vec ??
(change_vec ?? int (midtape sig (reverse ? xs@x::ls) ci rs) i)
(midtape sig ((reverse ? (l@x::xs))@ls0) cj l1) j).
+
+lemma wsem_match_m : ∀src,dst,sig,n,is_startc,is_endc.
+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) //
+-Hloop * #tb * #Hstar @(star_ind_l ??????? Hstar) -Hstar
+[ #tc whd in ⊢ (%→?); *
+ [ * * [ *
+ [ * #cur_src * #H1 #H2 #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #_ #Hnotendc #Hnthsrc
+ @False_ind >Hnthsrc in H1;normalize
+ #H1 destruct (H1) >(Hnotendc ? (memb_hd …)) in H2; #H2 destruct (H2)
+ ]
+ | #Hci #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #Hstart #Hend_ci #Hnotend
+ #Hnthi >Hnthi in Hci; normalize in ⊢ (%→?); #H destruct (H) ] ]
+ | #Hcj #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #_ #_ #_ #Hnthj >Hnthj in Hcj;
+ normalize in ⊢ (%→?); #H destruct (H) ] ]
+ | * #ls * #ls0 * #rs * #rs0 * #x * #xs #Houtc %
+ [ Houtc ?? x x (refl ??) (refl ??))
+ #Hcases
+ cut (∃end,rsi.rs = end::rsi ∧ nth src ? tc (niltape ?) = midtape ? ls x (xs@rs))
+ [ cases (nth src ? tc (niltape ?)) in
+
+
+lemma wsem_match_m : ∀src,dst,sig,n,is_startc,is_endc.
+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) //
+-Hloop * #tb * #Hstar @(star_ind_l ??????? Hstar) -Hstar
+[ #tc whd in ⊢ (%→?); *
+ [ * * [ *
+ [ * #cur_src * #H1 #H2 #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #_ #Hnthi #Hnthj
+ >Hnthi in Hcicj; >Hnthj normalize in ⊢ (%→?); * #H @False_ind @H %
+ ]
+ | #Hci #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #Hnthi >Hnthi in Hci;
+ normalize in ⊢ (%→?); #H destruct (H) ] ]
+ | #Hcj #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #Hnthj >Hnthj in Hcj;
+ normalize in ⊢ (%→?); #H destruct (H) ] ]
+
+
+
+[ #tc whd in ⊢ (%→?); * * [ *
+
+*)
+
+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.
+ is_startc x = true → is_endc ci = true →
+ (∀c0.c0 ∈ (x::xs) = true → is_endc c0 = false) →
+ nth i ? int (niltape ?) = midtape sig ls x (xs@ci::rs) →
+ nth j ? int (niltape ?) = midtape sig ls0 x0 rs0 →
+ (∃x1. is_endc x1 = false ∧ current ? (nth i ? outt (niltape ?)) = Some ? x1) ∨
+ (∃l,cj,l1.x0::rs0 = l@x::xs@cj::l1 ∧
+ outt = change_vec ??
+ (change_vec ?? int (midtape sig (reverse ? xs@x::ls) ci rs) i)
+ (midtape sig ((reverse ? (l@x::xs))@ls0) cj l1) j)).
+
+lemma wsem_match_m : ∀src,dst,sig,n,is_startc,is_endc.
+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) //
+-Hloop * #tb * #Hstar @(star_ind_l ??????? Hstar) -Hstar
+[ #tc whd in ⊢ (%→?); * #HR1 #HR2 % [ @HR1 ]
+ #ls #x #xs #ci #rs #ls0 #x0 #rs0 #Hstartc #Hendc #Hnotendc #Hsrctc #Hdsttc
+ cases (comp_list ? (x::xs@ci::rs) (x0::rs0) is_endc)
+ #l0 * #l1 * #l2 * * * #Heqsrc #Heqdst #Hnotendsrc #Hor
+ cut (∃x1,l1'.l1 = x1::l1') [@daemon] * #x1 * #l1' #Hl1
+ cases (Hor ?? Hl1) -Hor
+ [
+ cases HR2 -HR2 #HR2 [% @HR2]
+ |cut (is_endc x1 = false) [@daemon] #Hx1
+
+
+ [ * * [ *
+ [ * #cur_src * #H1 #H2 #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #_ #Hnotendc #Hnthsrc
+ @False_ind >Hnthsrc in H1;normalize
+ #H1 destruct (H1) >(Hnotendc ? (memb_hd …)) in H2; #H2 destruct (H2)
+ ]
+ | #Hci #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #Hstart #Hend_ci #Hnotend
+ #Hnthi >Hnthi in Hci; normalize in ⊢ (%→?); #H destruct (H) ] ]
+ | #Hcj #Houtc %
+ [ #_ @Houtc
+ | #ls #x #xs #ci #rs #ls0 #cj #rs0 #_ #_ #_ #_ #Hnthj >Hnthj in Hcj;
+ normalize in ⊢ (%→?); #H destruct (H) ] ]
+ | * #ls * #ls0 * #rs * #rs0 * #x * #xs #Houtc %
+ [ Houtc ?? x x (refl ??) (refl ??))
+ #Hcases
+ cut (∃end,rsi.rs = end::rsi ∧ nth src ? tc (niltape ?) = midtape ? ls x (xs@rs))
+ [ cases (nth src ? tc (niltape ?)) in Hcases;
+ [
+
lemma wsem_match_m : ∀src,dst,sig,n,is_startc,is_endc.
src ≠ dst → src < S n → dst < S n →
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