let i ≝ 14 in
let s ≝ execute (mult_status 〈x0, x0〉 〈x0, x0〉) i in
pc s = 20 ∧ mem s 32 = byte_of_nat 0.
- normalize;
split;
reflexivity.
qed.
-(*
lemma test_0_2:
let x ≝ 〈x0, x0〉 in
let y ≝ 〈x0, x2〉 in
split;
reflexivity.
qed.
-*)
lemma test_x_1:
∀x.
].
qed.
-(*
lemma test_x_2:
∀x.
let y ≝ 〈x0, x2〉 in
reflexivity
].
qed.
-*)
lemma loop_invariant':
∀x,y:byte.∀j:nat. j ≤ y →
| cut (5 + 23 * S n = 5 + 23 * n + 23);
[ letin K ≝ (breakpoint (mult_status x y) (5 + 23 * n) 23); clearbody K;
letin H' ≝ (H ?); clearbody H'; clear H;
- [ autobatch
+ [ apply le_S_S_to_le;
+ apply le_S;
+ apply H1
| letin xxx ≝ (eq_f ? ? (λz. execute (mult_status x y) z) ? ? Hcut); clearbody xxx;
clear Hcut;
rewrite > xxx;
(byte_of_nat (x*n))) O)
3 20); clearbody K;
normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > K; clear K;
whd in ⊢ (? ? (? % ?) ?);
normalize in ⊢ (? ? (? (? ? % ? ? ? ? ?) ?) ?);
change in ⊢ (? ? (? (? % ? ? ? ? ? ?) ?) ?)
(byte_of_nat (x*n))) O)
3 17); clearbody K;
normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > K; clear K;
whd in ⊢ (? ? (? % ?) ?);
letin K ≝ (eq_eqbyte_x0_x0_byte_of_nat_S_false ? H3); clearbody K;
rewrite > K; clear K;
simplify in ⊢ (? ? (? (? ? % ? ? ? ? ?) ?) ?);
(* instruction LDAd *)
- letin K ≝
- (breakpoint
- (mk_status (byte_of_nat (S a)) 8 O
- (eqbyte 〈x0, x0〉 (byte_of_nat (S a)))
- (plusbytec (byte_of_nat (x*pred n)) x)
- (update (update (update (mult_memory x y) 30 x) 31 (byte_of_nat (S a))) 32
- (byte_of_nat (x*n))) O)
- 3 14); clearbody K;
- normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > (breakpoint ? 3 14);
whd in ⊢ (? ? (? % ?) ?);
change in ⊢ (? ? (? (? % ? ? ? ? ? ?) ?) ?) with (byte_of_nat (x*n));
normalize in ⊢ (? ? (? (? ? % ? ? ? ? ?) ?) ?);
change in ⊢ (? ? (? (? ? ? ? % ? ? ?) ?) ?) with (eqbyte 〈x0, x0〉 (byte_of_nat (x*n)));
(* instruction DECd *)
- letin K ≝
- (breakpoint
- (mk_status (byte_of_nat (x*n)) 10 O
- (eqbyte 〈x0, x0〉 (byte_of_nat (x*n)))
- (plusbytec (byte_of_nat (x*pred n)) x)
- (update (update (update (mult_memory x y) 30 x) 31 (byte_of_nat (S a))) 32
- (byte_of_nat (x*n))) O)
- 5 9); clearbody K;
- normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > (breakpoint ? 5 9);
whd in ⊢ (? ? (? % ?) ?);
change in ⊢ (? ? (? (? ? ? ? (? ? %) ? ? ?) ?) ?) with (bpred (byte_of_nat (S a)));
rewrite > (eq_bpred_S_a_a ? H3);
reflexivity | ];
rewrite < Hcut; clear Hcut; clear H3; clear H2; clear a;
(* instruction ADDd *)
- letin K ≝
- (breakpoint
- (mk_status (byte_of_nat (x*n)) 12
- O (eqbyte 〈x0, x0〉 (byte_of_nat (y-S n)))
- (plusbytec (byte_of_nat (x*pred n)) x)
- (update
- (update (update (update (mult_memory x y) 30 x) 31 (byte_of_nat (S (y-S n))))
- 32 (byte_of_nat (x*n))) 31
- (byte_of_nat (y-S n))) O)
- 3 6); clearbody K;
- normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > (breakpoint ? 3 6);
whd in ⊢ (? ? (? % ?) ?);
change in ⊢ (? ? (? (? % ? ? ? ? ? ?) ?) ?) with
(plusbytenc (byte_of_nat (x*n)) x);
with (plusbytec (byte_of_nat (x*n)) x);
rewrite > plusbytenc_S;
(* instruction STAd *)
- letin K ≝
- (breakpoint
- (mk_status (byte_of_nat (x*S n)) 14 O
- (eqbyte 〈x0, x0〉 (byte_of_nat (x*S n)))
- (plusbytec (byte_of_nat (x*n)) x)
- (update
- (update (update (update (mult_memory x y) 30 x) 31 (byte_of_nat (S (y-S n))))
- 32 (byte_of_nat (x*n))) 31
- (byte_of_nat (y-S n))) O)
- 3 3); clearbody K;
- normalize in K:(? ? (? ? %) ?);
- apply transitive_eq; [2: apply K | skip | ]; clear K;
+ rewrite > (breakpoint ? 3 3);
whd in ⊢ (? ? (? % ?) ?);
normalize in ⊢ (? ? (? (? ? % ? ? ? ? ?) ?) ?);
(* instruction BRA *)
projects / helm.git / commitdiff