definition mcc_states : FinSet → FinSet ≝ λalpha:FinSet.FinProd (initN 5) alpha.
+definition mcc0 : initN 5 ≝ mk_Sig ?? 0 (leb_true_to_le 1 5 (refl …)).
+definition mcc1 : initN 5 ≝ mk_Sig ?? 1 (leb_true_to_le 2 5 (refl …)).
+definition mcc2 : initN 5 ≝ mk_Sig ?? 2 (leb_true_to_le 3 5 (refl …)).
+definition mcc3 : initN 5 ≝ mk_Sig ?? 3 (leb_true_to_le 4 5 (refl …)).
+definition mcc4 : initN 5 ≝ mk_Sig ?? 4 (leb_true_to_le 5 5 (refl …)).
+
definition mcc_step ≝
λalpha:FinSet.λsep:alpha.
mk_TM alpha (mcc_states alpha)
(λp.let 〈q,a〉 ≝ p in
let 〈q',b〉 ≝ q in
+ let q' ≝ pi1 nat (λi.i<5) q' in (* perche' devo passare il predicato ??? *)
match a with
- [ None ⇒ 〈〈4,sep〉,None ?〉
- | Some a' ⇒
+ [ None ⇒ 〈〈mcc4,sep〉,None ?〉
+ | Some a' ⇒
match q' with
[ O ⇒ (* qinit *)
match a' == sep with
- [ true ⇒ 〈〈4,sep〉,None ?〉
- | false ⇒ 〈〈1,a'〉,Some ? 〈a',L〉〉 ]
- | S q' ⇒ match q' with
+ [ true ⇒ 〈〈mcc4,sep〉,None ?〉
+ | false ⇒ 〈〈mcc1,a'〉,Some ? 〈a',L〉〉 ]
+ | S q' ⇒ match q' with
[ O ⇒ (* q1 *)
- 〈〈2,a'〉,Some ? 〈b,R〉〉
+ 〈〈mcc2,a'〉,Some ? 〈b,R〉〉
| S q' ⇒ match q' with
[ O ⇒ (* q2 *)
- 〈〈3,sep〉,Some ? 〈b,R〉〉
+ 〈〈mcc3,sep〉,Some ? 〈b,R〉〉
| S q' ⇒ match q' with
[ O ⇒ (* qacc *)
- 〈〈3,sep〉,None ?〉
+ 〈〈mcc3,sep〉,None ?〉
| S q' ⇒ (* qfail *)
- 〈〈4,sep〉,None ?〉 ] ] ] ] ])
- 〈0,sep〉
- (λq.let 〈q',a〉 ≝ q in q' == 3 ∨ q' == 4).
+ 〈〈mcc4,sep〉,None ?〉 ] ] ] ] ])
+ 〈mcc0,sep〉
+ (λq.let 〈q',a〉 ≝ q in q' == mcc3 ∨ q' == mcc4).
lemma mcc_q0_q1 :
∀alpha:FinSet.∀sep,a,ls,a0,rs.
a0 == sep = false →
step alpha (mcc_step alpha sep)
- (mk_config ?? 〈0,a〉 (mk_tape … ls (Some ? a0) rs)) =
- mk_config alpha (states ? (mcc_step alpha sep)) 〈1,a0〉
+ (mk_config ?? 〈mcc0,a〉 (mk_tape … ls (Some ? a0) rs)) =
+ mk_config alpha (states ? (mcc_step alpha sep)) 〈mcc1,a0〉
(tape_move_left alpha ls a0 rs).
#alpha #sep #a *
[ #a0 #rs #Ha0 whd in ⊢ (??%?);
lemma mcc_q1_q2 :
∀alpha:FinSet.∀sep,a,ls,a0,rs.
step alpha (mcc_step alpha sep)
- (mk_config ?? 〈1,a〉 (mk_tape … ls (Some ? a0) rs)) =
- mk_config alpha (states ? (mcc_step alpha sep)) 〈2,a0〉
+ (mk_config ?? 〈mcc1,a〉 (mk_tape … ls (Some ? a0) rs)) =
+ mk_config alpha (states ? (mcc_step alpha sep)) 〈mcc2,a0〉
(tape_move_right alpha ls a rs).
#alpha #sep #a #ls #a0 * //
qed.
lemma mcc_q2_q3 :
∀alpha:FinSet.∀sep,a,ls,a0,rs.
step alpha (mcc_step alpha sep)
- (mk_config ?? 〈2,a〉 (mk_tape … ls (Some ? a0) rs)) =
- mk_config alpha (states ? (mcc_step alpha sep)) 〈3,sep〉
+ (mk_config ?? 〈mcc2,a〉 (mk_tape … ls (Some ? a0) rs)) =
+ mk_config alpha (states ? (mcc_step alpha sep)) 〈mcc3,sep〉
(tape_move_right alpha ls a rs).
#alpha #sep #a #ls #a0 * //
qed.
lemma mcc_trans_init_sep:
∀alpha,sep,x.
- trans ? (mcc_step alpha sep) 〈〈0,x〉,Some ? sep〉 = 〈〈4,sep〉,None ?〉.
+ trans ? (mcc_step alpha sep) 〈〈mcc0,x〉,Some ? sep〉 = 〈〈mcc4,sep〉,None ?〉.
#alpha #sep #x normalize >(\b ?) //
qed.
lemma mcc_trans_init_not_sep:
∀alpha,sep,x,y.y == sep = false →
- trans ? (mcc_step alpha sep) 〈〈0,x〉,Some ? y〉 = 〈〈1,y〉,Some ? 〈y,L〉〉.
+ trans ? (mcc_step alpha sep) 〈〈mcc0,x〉,Some ? y〉 = 〈〈mcc1,y〉,Some ? 〈y,L〉〉.
#alpha #sep #x #y #H1 normalize >H1 //
qed.
lemma sem_mcc_step :
∀alpha,sep.
accRealize alpha (mcc_step alpha sep)
- 〈3,sep〉 (Rmcc_step_true alpha sep) (Rmcc_step_false alpha sep).
-#alpha #sep *
+ 〈mcc3,sep〉 (Rmcc_step_true alpha sep) (Rmcc_step_false alpha sep).
+#alpha #sep
+cut (∀P:Prop.〈mcc4,sep〉=〈mcc3,sep〉→P)
+ [#P whd in ⊢ ((??(???%?)(???%?))→?); #Hfalse destruct] #Hfalse
+*
[@(ex_intro ?? 2)
- @(ex_intro … (mk_config ?? 〈4,sep〉 (niltape ?)))
- % [% [whd in ⊢ (??%?);% |#Hfalse destruct ] |#H1 #H2 @False_ind @(absurd ?? H2) %]
+ @(ex_intro … (mk_config ?? 〈mcc4,sep〉 (niltape ?))) %
+ [% [whd in ⊢ (??%?); % | @Hfalse]
+ |#H1 #H2 @False_ind @(absurd ?? H2) %]
|#l0 #lt0 @(ex_intro ?? 2)
- @(ex_intro … (mk_config ?? 〈4,sep〉 (leftof ? l0 lt0)))
- % [% [whd in ⊢ (??%?);% |#Hfalse destruct ] |#H1 #H2 @False_ind @(absurd ?? H2) %]
+ @(ex_intro … (mk_config ?? 〈mcc4,sep〉 (leftof ? l0 lt0)))%
+ [% [whd in ⊢ (??%?);% |@Hfalse]
+ |#H1 #H2 @False_ind @(absurd ?? H2) %]
|#r0 #rt0 @(ex_intro ?? 2)
- @(ex_intro … (mk_config ?? 〈4,sep〉 (rightof ? r0 rt0)))
- % [% [whd in ⊢ (??%?);% |#Hfalse destruct ] |#H1 #H2 #H3 @False_ind @(absurd ?? H3) %]
+ @(ex_intro … (mk_config ?? 〈mcc4,sep〉 (rightof ? r0 rt0))) %
+ [% [whd in ⊢ (??%?);% |@Hfalse]
+ |#H1 #H2 #H3 @False_ind @(absurd ?? H3) %]
| #lt #c #rt cases (true_or_false (c == sep)) #Hc
[ @(ex_intro ?? 2)
- @(ex_intro ?? (mk_config ?? 〈4,sep〉 (midtape ? lt c rt)))
+ @(ex_intro ?? (mk_config ?? 〈mcc4,sep〉 (midtape ? lt c rt)))
% [ %
[ >(\P Hc) >loop_S_false // >loop_S_true
[ @eq_f whd in ⊢ (??%?); >mcc_trans_init_sep %
|>(\P Hc) whd in ⊢(??(???(???%))?); >mcc_trans_init_sep % ]
- | #Hfalse destruct ]
+ |@Hfalse]
|#_ #H1 #H2 % // normalize >(\P Hc) % ]
| @(ex_intro ?? 4) cases lt
[ @ex_intro
(* the move_char (variant c) machine *)
definition move_char_c ≝
- λalpha,sep.whileTM alpha (mcc_step alpha sep) 〈3,sep〉.
+ λalpha,sep.whileTM alpha (mcc_step alpha sep) 〈mcc3,sep〉.
definition R_move_char_c ≝
λalpha,sep,t1,t2.
-Hloop * #t1 * #Hstar @(star_ind_l ??????? Hstar)
[ #tapea whd in ⊢ (% → ?); #H1 #b #a #ls #rs #Htapea
%
- [ #Hb >Htapea in H1; >Hb normalize in ⊢ (%→?); #H1
- cases (H1 ??)
- [#_ #H2 >H2 %
- |*: % #H2 destruct (H2) ]
+ [ #Hb >Htapea in H1; >Hb #H1 cases (H1 ??)
+ [#_ #H2 >H2 % |*: % #H2 normalize in H2; destruct (H2)]
| #rs1 #rs2 #Hrs #Hb #Hrs1
- >Htapea in H1; normalize in ⊢ (% → ?); #H1
- cases (H1 ??)
- [ #Hfalse @False_ind @(absurd ?? Hb) destruct %
- |*:% #H2 destruct (H2) ]
+ >Htapea in H1; #H1 cases (H1 ??)
+ [#Hfalse @False_ind @(absurd ?? Hb) normalize in Hfalse; destruct %
+ |*:% #H2 normalize in H2; destruct (H2) ]
]
| #tapea #tapeb #tapec #Hstar1 #HRtrue #IH #HRfalse
lapply (IH HRfalse) -IH whd in ⊢ (%→%); #IH
#Ha0 #Htapeb %
[ #Hfalse @False_ind @(absurd ?? Ha0) //
| *
- [ #rs2 whd in ⊢ (???%→?); #Hrs #_ #_ normalize
- >Hrs in Htapeb; normalize #Htapeb
- cases (IH … Htapeb)
- #Houtc #_ >Houtc //
+ [ #rs2 whd in ⊢ (???%→?); #Hrs #_ #_ (* normalize *)
+ >Hrs in Htapeb; #Htapeb normalize in Htapeb;
+ cases (IH … Htapeb) #Houtc #_ >Houtc normalize //
| #r0 #rs0 #rs2 #Hrs #_ #Hrs0
cut (r0 ≠ sep ∧ memb … sep rs0 = false)
[ %
projects / helm.git / blobdiff