mv ≠ null → c1 ≠ null
dal fatto che c1 e mv sono contenuti nella table
*)
+
+definition Pre_exec_action ≝ λt1.
+ ∃n,curconfig,ls,rs,c0,c1,s0,s1,table1,newconfig,mv,table2.
+ table_TM n (table1@〈comma,false〉::〈s1,false〉::newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2) ∧
+ no_marks curconfig ∧ only_bits (curconfig@[〈s0,false〉]) ∧
+ only_bits (〈s1,false〉::newconfig) ∧ bit_or_null c1 = true ∧
+ |curconfig| = |newconfig| ∧
+ legal_tape ls 〈c0,false〉 rs ∧
+ t1 = midtape STape (〈c0,false〉::curconfig@〈s0,false〉::〈grid,false〉::ls) 〈grid,false〉
+ (table1@〈comma,true〉::〈s1,false〉::newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2@〈grid,false〉::rs).
+
definition R_exec_action ≝ λt1,t2.
∀n,curconfig,ls,rs,c0,c1,s0,s1,table1,newconfig,mv,table2.
table_TM n (table1@〈comma,false〉::〈s1,false〉::newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2) →
*)
-lemma sem_exec_action : Realize ? exec_action R_exec_action.
-#intape
-cases (sem_seq … sem_init_copy
- (sem_seq … sem_copy
- (sem_seq … (sem_move_r …) sem_move_tape )) intape)
-#k * #outc * #Hloop #HR
-@(ex_intro ?? k) @(ex_intro ?? outc) % [ @Hloop ] -Hloop
-#n #curconfig #ls #rs #c0 #c1 #s0 #s1 #table1 #newconfig #mv #table2
-#Htable #Hcurconfig1 #Hcurconfig2 #Hnewconfig #Hc1 #Hlen #Htape #Hintape #t1' #Ht1'
-cases HR -HR #ta * whd in ⊢ (%→?); #Hta
-lapply (Hta (〈c0,false〉::curconfig) table1 s0 ls s1
- (newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2@〈grid,false〉::rs) … Hintape) -Hta
+(*lemma GRealize_to_Realize :
+ ∀sig,M,R.GRealize sig M (λx.True) R → Realize sig M R.
+#sig #M #R #HR #t @HR //
+qed.*)
+
+lemma sem_exec_action : GRealize ? exec_action Pre_exec_action R_exec_action.
+@(sem_seq_app_guarded … (Realize_to_GRealize … sem_init_copy) ???)
+[3:@(sem_seq_app_guarded … sem_copy)
+ [3:@(sem_seq_app_guarded … (Realize_to_GRealize … (sem_move_r STape)))
+ [3:@(Realize_to_GRealize … (sem_move_tape …))
+ |@(λt.True)
+ |4://
+ |5:@sub_reflexive]
+ |@(λt.True)
+ |4://
+ |5:@sub_reflexive]
+|4:#t1 #t2
+ * #n * #curconfig * #ls * #rs * #c0 * #c1 * #s0 * #s1 * #table1 * #newconfig
+ * #mv * #table2 * * * * * * *
+ #Htable #Hcurconfig1 #Hcurconfig2 #Hnewconfig #Hc1 #Hlen #Htape #Ht1
+ whd in ⊢ (%→?); >Ht1 #HR
+ lapply (HR (〈c0,false〉::curconfig) table1 s0 ls s1
+ (newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2@〈grid,false〉::rs) ???? (refl ??))
+ [(*Hcurconfig2*) @daemon
+ |(*by Htable *) @daemon
+ |(*Hcurconfig2*) @daemon
+ |(*Hcurconfig1*) @daemon ]
+ -HR #Ht2 whd
+ %{(〈grid,false〉::ls)} %{s0} %{s1} %{c0} %{c1} %{(〈mv,false〉::table2@〈grid,false〉::rs)}
+ %{newconfig} %{(〈comma,false〉::reverse ? table1)} %{curconfig} >Ht2
+ % [ % [ % [ % [ % [ % [ % [ %
+ [ %
+ |(*by Htabel*) @daemon ]
+ |(*by Htable*) @daemon ]
+ |// ]
+ |>Hlen % ]
+ |@Hcurconfig2 ]
+ |@Hnewconfig ]
+ |cases Htape * * // ]
+ | // ]
+ |1,2:skip]
+#ta #outtape #HR #n #curconfig #ls #rs #c0 #c1 #s0 #s1 #table1 #newconfig #mv
+#table2 #Htable #Hcurconfig1 #Hcurconfig2 #Hnewconfig #Hbitnullc1 #Hlen #Htape
+#Hta #ta' #Hta'
+cases HR -HR #tb * whd in ⊢ (%→?); #Htb
+lapply (Htb (〈c0,false〉::curconfig) table1 s0 ls s1
+ (newconfig@〈c1,false〉::〈comma,false〉::〈mv,false〉::table2@〈grid,false〉::rs)
+ ???? Hta) -Htb
[ (*Hcurconfig2*) @daemon
| (*Htable*) @daemon
-| (*bit_or_null c0 = true *) @daemon
-| (*Hcurconfig1*) @daemon
-| #Hta * #tb * whd in ⊢ (%→?); #Htb
- lapply (Htb (〈grid,false〉::ls) s0 s1 c0 c1 (〈mv,false〉::table2@〈grid,false〉::rs) newconfig (〈comma,false〉::reverse ? table1) curconfig Hta ????????) -Htb
- [9:|*:(* bit_or_null c0,c1; |curconfig| = |newconfig|*) @daemon ]
- #Htb * #tc * whd in ⊢ (%→?); * #_ #Htc lapply (Htc … Htb) -Htc whd in ⊢(???(??%%%)→?);#Htc
- whd in ⊢ (%→?); #Houtc whd in Htc:(???%); whd in Htc:(???(??%%%));
- lapply (Houtc rs n
- (〈comma,false〉::〈c1,false〉::reverse ? newconfig@〈s1,false〉::〈comma,false〉::reverse ? table1)
- mv table2 (merge_char c0 c1) (reverse ? newconfig@[〈s1,false〉]) ls ????????)
- [3: cases Htape -Htape * * #Hnomarks #Hbits #Hc0 #Hlsrs % [ % [ %
- [ #x #Hx cases (orb_true_l … Hx) #Hx'
- [ >(\P Hx') %
- | @Hnomarks @memb_cons // ]
- | @Hbits ]
- | cases (merge_char_cases c0 c1) #Hmerge >Hmerge // ]
- | cases (true_or_false (c0 == null)) #Hc0'
- [ cases Hlsrs -Hlsrs
- [ *
- [ >(\P Hc0') * #Hfalse @False_ind /2/
- | #Hlsnil % %2 // ]
- | #Hrsnil %2 // ]
- | % % @merge_char_not_null @(\Pf Hc0') ] ]
- |4:>Htc @(eq_f3 … (midtape ?))
- [ @eq_f @eq_f >associative_append >associative_append %
- | %
- | % ]
+| (* by Htape bit_or_null c0 = true, moreover Hcurconfig2 *) @daemon
+| (*Hcurconfig1*) @daemon ]
+#Htb * #tc * whd in ⊢ (%→?); #Htc
+lapply (Htc (〈grid,false〉::ls) s0 s1 c0 c1 (〈mv,false〉::table2@〈grid,false〉::rs) newconfig (〈comma,false〉::reverse ? table1) curconfig Htb ????????) -Htc
+[9:|*:(* bit_or_null c0,c1; |curconfig| = |newconfig|*) @daemon ]
+#Htc * #td * whd in ⊢ (%→?); * #_ #Htd lapply (Htd … Htc) -Htd whd in ⊢(???(??%%%)→?);#Htd
+whd in ⊢ (%→?); #Houtc whd in Htd:(???%); whd in Htd:(???(??%%%));
+lapply (Houtc rs n
+ (〈comma,false〉::〈c1,false〉::reverse ? newconfig@〈s1,false〉::〈comma,false〉::reverse ? table1)
+ mv table2 (merge_char c0 c1) (reverse ? newconfig@[〈s1,false〉]) ls ????????)
+[3: cases Htape -Htape * * #Hnomarks #Hbits #Hc0 #Hlsrs % [ % [ %
+ [ #x #Hx cases (orb_true_l … Hx) #Hx'
+ [ >(\P Hx') %
+ | @Hnomarks @memb_cons // ]
+ | @Hbits ]
+ | cases (merge_char_cases c0 c1) #Hmerge >Hmerge // ]
+ | cases (true_or_false (c0 == null)) #Hc0'
+ [ cases Hlsrs -Hlsrs
+ [ *
+ [ >(\P Hc0') * #Hfalse @False_ind /2/
+ | #Hlsnil % %2 // ]
+ | #Hrsnil %2 // ]
+ | % % @merge_char_not_null @(\Pf Hc0') ] ]
+|4:>Htd @(eq_f3 … (midtape ?))
+ [ @eq_f @eq_f >associative_append >associative_append %
| %
- || >reverse_cons >reverse_cons >reverse_append >reverse_reverse
- >reverse_cons >reverse_cons >reverse_reverse
- >associative_append >associative_append >associative_append
- >associative_append >associative_append
- @Htable
- | (* well formedness of table *) @daemon
- | (* Hnewconfig *) @daemon
- | (* bit_or_null mv = true (well formedness of table) *) @daemon
- | -Houtc * #ls1 * #rs1 * #newc * #Hnewtapelegal * #Houtc *
- [ *
- [ * #Hmv #Htapemove
- @(ex_intro ?? ls1) @(ex_intro ?? rs1) @(ex_intro ?? newc)
- %
- [ %
- [ >Houtc -Houtc >reverse_append
- >reverse_reverse >reverse_single @eq_f
- >reverse_cons >reverse_cons >reverse_append >reverse_cons
- >reverse_cons >reverse_reverse >reverse_reverse
- >associative_append >associative_append
- >associative_append >associative_append
- >associative_append >associative_append %
- | >Hmv >Ht1' >Htapemove
- (* mv = bit false -→ c1 = bit ? *)
- cut (∃c1'.c1 = bit c1') [ @daemon ] * #c1' #Hc1
- >Hc1 >tape_move_left_eq >(legal_tape_left … Htape)
- >(legal_tape_right … Htape) %
- ]
- | //
- ]
- | * #Hmv #Htapemove
- @(ex_intro ?? ls1) @(ex_intro ?? rs1) @(ex_intro ?? newc) %
- [ %
- [ >Houtc -Houtc >reverse_append
- >reverse_reverse >reverse_single @eq_f
- >reverse_cons >reverse_cons >reverse_append >reverse_cons
- >reverse_cons >reverse_reverse >reverse_reverse
- >associative_append >associative_append
- >associative_append >associative_append
- >associative_append >associative_append %
- |>Hmv >Ht1' >Htapemove
- cut (∃c1'.c1 = bit c1') [ @daemon ] * #c1' #Hc1
- >Hc1 >tape_move_right_eq >(legal_tape_left … Htape)
- >(legal_tape_right … Htape) %
- ]
- | //
+ | % ]
+| %
+|| >reverse_cons >reverse_cons >reverse_append >reverse_reverse
+ >reverse_cons >reverse_cons >reverse_reverse
+ >associative_append >associative_append >associative_append
+ >associative_append >associative_append
+ @Htable
+| (* well formedness of table *) @daemon
+| (* Hnewconfig *) @daemon
+| (* bit_or_null mv = true (well formedness of table) *) @daemon
+| -Houtc * #ls1 * #rs1 * #newc * #Hnewtapelegal * #Houtc *
+ [ *
+ [ * #Hmv #Htapemove
+ @(ex_intro ?? ls1) @(ex_intro ?? rs1) @(ex_intro ?? newc)
+ %
+ [ %
+ [ >Houtc -Houtc >reverse_append
+ >reverse_reverse >reverse_single @eq_f
+ >reverse_cons >reverse_cons >reverse_append >reverse_cons
+ >reverse_cons >reverse_reverse >reverse_reverse
+ >associative_append >associative_append
+ >associative_append >associative_append
+ >associative_append >associative_append %
+ | >Hmv >Hta' >Htapemove
+ (* mv = bit false -→ c1 = bit ? *)
+ cut (∃c1'.c1 = bit c1') [ @daemon ] * #c1' #Hc1
+ >Hc1 >tape_move_left_eq >(legal_tape_left … Htape)
+ >(legal_tape_right … Htape) %
]
+ | //
]
- | * * * #Hmv #Hlseq #Hrseq #Hnewc
+ | * #Hmv #Htapemove
@(ex_intro ?? ls1) @(ex_intro ?? rs1) @(ex_intro ?? newc) %
[ %
[ >Houtc -Houtc >reverse_append
>associative_append >associative_append
>associative_append >associative_append
>associative_append >associative_append %
- |>Hmv >Ht1' cases c1 in Hnewc;
- [ #c1' whd in ⊢ (??%?→?);#Hnewc <Hnewc
- >Hlseq >Hrseq whd in ⊢ (??%%);
- >(legal_tape_left … Htape) >(legal_tape_right … Htape) %
- | whd in ⊢ (??%?→?); #Hnewc >Hnewc >Hlseq >Hrseq %
- |*: whd in ⊢ (??%?→?);#Hnewc <Hnewc
- >Hlseq >Hrseq whd in ⊢ (??%%);
- >(legal_tape_left … Htape) >(legal_tape_right … Htape) %
- ]
+ |>Hmv >Hta' >Htapemove
+ cut (∃c1'.c1 = bit c1') [ @daemon ] * #c1' #Hc1
+ >Hc1 >tape_move_right_eq >(legal_tape_left … Htape)
+ >(legal_tape_right … Htape) %
]
| //
]
]
+ | * * * #Hmv #Hlseq #Hrseq #Hnewc
+ @(ex_intro ?? ls1) @(ex_intro ?? rs1) @(ex_intro ?? newc) %
+ [ %
+ [ >Houtc -Houtc >reverse_append
+ >reverse_reverse >reverse_single @eq_f
+ >reverse_cons >reverse_cons >reverse_append >reverse_cons
+ >reverse_cons >reverse_reverse >reverse_reverse
+ >associative_append >associative_append
+ >associative_append >associative_append
+ >associative_append >associative_append %
+ |>Hmv >Hta' cases c1 in Hnewc;
+ [ #c1' whd in ⊢ (??%?→?);#Hnewc <Hnewc
+ >Hlseq >Hrseq whd in ⊢ (??%%);
+ >(legal_tape_left … Htape) >(legal_tape_right … Htape) %
+ | whd in ⊢ (??%?→?); #Hnewc >Hnewc >Hlseq >Hrseq %
+ |*: whd in ⊢ (??%?→?);#Hnewc <Hnewc
+ >Hlseq >Hrseq whd in ⊢ (??%%);
+ >(legal_tape_left … Htape) >(legal_tape_right … Htape) %
+ ]
+ ]
+ | //
+ ]
]
]
qed.
projects / helm.git / commitdiff