[697] | 1 | include "basics/types.ma". |
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[698] | 2 | include "ASM/BitVector.ma". |
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[475] | 3 | |
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| 4 | inductive BitVectorTrie (A: Type[0]): nat → Type[0] ≝ |
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| 5 | Leaf: A → BitVectorTrie A O |
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| 6 | | Node: ∀n: nat. BitVectorTrie A n → BitVectorTrie A n → BitVectorTrie A (S n) |
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| 7 | | Stub: ∀n: nat. BitVectorTrie A n. |
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| 8 | |
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[1006] | 9 | let rec fold (A, B: Type[0]) (n: nat) (f: BitVector n → A → B → B) |
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| 10 | (t: BitVectorTrie A n) (b: B) on t: B ≝ |
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| 11 | (match t return λx.λ_.x = n → B with |
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| 12 | [ Leaf l ⇒ λ_.f (zero ?) l b |
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| 13 | | Node h l r ⇒ λK. |
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| 14 | fold A B h (λx.f ((VCons ? h false x)⌈(S h) ↦ n⌉)) l |
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| 15 | (fold A B h (λx.f ((VCons ? h true x)⌈(S h) ↦ n⌉)) r b) |
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| 16 | | Stub _ ⇒ λ_.b |
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| 17 | ]) (refl ? n). |
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| 18 | @K |
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| 19 | qed. |
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[782] | 20 | |
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[1424] | 21 | lemma Sm_leq_n_m_leq_n: |
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| 22 | ∀m, n: nat. |
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| 23 | S m ≤ n → m ≤ n. |
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| 24 | #m #n /2/ |
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| 25 | qed. |
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| 26 | |
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| 27 | let rec bvtfold_aux |
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| 28 | (a, b: Type[0]) (f: BitVector 16 → a → b → b) (seed: b) (n: nat) |
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| 29 | on n: n ≤ 16 → BitVectorTrie a n → BitVector (16 - n) → b ≝ |
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| 30 | match n return λn: nat. n ≤ 16 → BitVectorTrie a n → BitVector (16 - n) → b with |
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| 31 | [ O ⇒ λinvariant: 0 ≤ 16. λtrie: BitVectorTrie a 0. λpath: BitVector 16. |
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| 32 | match trie return λx: nat. λtrie': BitVectorTrie a x. ∀prf: x = 0. b with |
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| 33 | [ Leaf l ⇒ λproof. f path l seed |
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| 34 | | Stub s ⇒ λproof. seed |
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| 35 | | Node n' l r ⇒ λabsrd. ⊥ |
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| 36 | ] (refl … 0) |
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| 37 | | S n' ⇒ λinvariant: S n' ≤ 16. λtrie: BitVectorTrie a (S n'). λpath: BitVector (16 - S n'). |
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| 38 | match trie return λx: nat. λtrie': BitVectorTrie a x. ∀prf: x = S n'. b with |
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| 39 | [ Leaf l ⇒ λabsrd. ⊥ |
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| 40 | | Stub s ⇒ λproof. seed |
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| 41 | | Node n'' l r ⇒ λproof. |
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| 42 | bvtfold_aux a b f (bvtfold_aux a b f seed n' ? (l⌈BitVectorTrie a n'' ↦ BitVectorTrie a n'⌉) ((false:::path)⌈S (16 - S n') ↦ 16 - n'⌉)) n' ? (r⌈BitVectorTrie a n'' ↦ BitVectorTrie a n'⌉) ((true:::path)⌈S (16 - S n') ↦ 16 - n'⌉) |
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| 43 | ] (refl … (S n')) |
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| 44 | ]. |
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| 45 | [ 1, 2: destruct(absrd) |
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| 46 | | 3,8: >minus_S_S <minus_Sn_m // @le_S_S_to_le // |
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| 47 | | 4,7: destruct(proof) % |
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| 48 | | 5,6: @Sm_leq_n_m_leq_n // ] |
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| 49 | qed. |
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| 50 | |
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[1006] | 51 | (* these two can probably be generalized w/r/t the second type and |
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| 52 | * some sort of equality relationship *) |
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| 53 | lemma fold_eq: |
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| 54 | ∀A: Type[0]. |
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| 55 | ∀n: nat. |
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| 56 | ∀f. |
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| 57 | ∀t. |
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| 58 | ∀P, Q: Prop. |
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| 59 | (P → Q) → (∀a,t',P,Q.(P → Q) → f a t' P → f a t' Q) → fold A ? n f t P → fold A ? n f t Q. |
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| 60 | #A #n #f #t #P #Q #H |
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[1516] | 61 | generalize in match (refl ? n); generalize in match H; -H; generalize in match Q; -Q; generalize in match P; -P; |
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| 62 | elim t in f ⊢ (? → ? → ? → ???% → ? → ???%%%? → ???%%%?); |
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[1006] | 63 | [ #a #f #P #Q #HPQ #_ #Hf #HP whd in HP; whd @(Hf (zero 0) a P Q HPQ HP) |
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| 64 | | #h #l #r #Hl #Hr #f #P #Q #HPQ #_ #Hf #HP normalize normalize in HP; @(Hl ? (fold A Prop h (λx.f (true:::x)) r P) (fold A Prop h (λx.f (true:::x)) r Q) ? (refl ? h) ?) |
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| 65 | [ @(Hr ? P Q HPQ (refl ? h) ?) |
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| 66 | #a #t' #X #Y #HXY #Hff @(Hf (true:::a) t' X Y HXY Hff) |
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| 67 | | #a #t' #X #Y #HXY #Hff @(Hf (false:::a) t' X Y HXY Hff) ] |
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| 68 | | #h #f #P #Q #HPQ #_ #Hf #HP whd in HP; whd @(HPQ HP) ] |
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| 69 | @HP |
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| 70 | qed. |
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| 71 | |
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| 72 | lemma fold_init: |
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| 73 | ∀A:Type[0]. |
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| 74 | ∀n:nat. |
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| 75 | ∀f. |
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| 76 | ∀t. |
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| 77 | ∀P: Prop. |
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| 78 | (∀a,t',P.f a t' P → P) → fold A Prop n f t P → P. |
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[1516] | 79 | #A #n #f #t #P #H generalize in match (refl ? n); generalize in match H; -H; generalize in match P; -P; |
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| 80 | elim t in f ⊢ (? → ? → ???% → ???%%%? → ?); -t |
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[1006] | 81 | [ #a #f #P #Hf #_ normalize @(Hf [[]]) |
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| 82 | | #h #l #r #Hl #Hr #f #P #Hf #_ normalize #HP @(Hr (λx.f (true:::x))) |
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| 83 | [ #a #t' #X @(Hf (true:::a) t' X) | @(refl ? h) | @(Hl (λx.f (false:::x))) |
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| 84 | [ #a #t' #X @(Hf (false:::a) t' X) | @(refl ? h) | @HP ] |
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| 85 | ] |
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| 86 | | #h #f #P #Hf #_ normalize // |
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[1424] | 87 | |
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| 88 | |
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[1006] | 89 | ] |
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| 90 | qed. |
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[1609] | 91 | |
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[1006] | 92 | definition forall |
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| 93 | ≝ |
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| 94 | λA.λn.λt:BitVectorTrie A n.λP.fold ? ? ? (λk.λa.λacc.(P k a) ∧ acc) t True. |
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[1609] | 95 | |
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| 96 | alias id "bvt_forall" = "cic:/matita/cerco/ASM/BitVectorTrie/forall.def(4)". |
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| 97 | |
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[1006] | 98 | lemma forall_nodel: |
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| 99 | ∀A:Type[0]. |
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| 100 | ∀n:nat. |
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| 101 | ∀l,r. |
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| 102 | ∀P:BitVector (S n) → A → Prop. |
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| 103 | forall A (S n) (Node ? n l r) P → forall A n l (λx.λa.P (false:::x) a). |
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| 104 | #A #n #l #r #P #Hl |
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| 105 | whd @(fold_eq A n ? ? (fold A ? n (λk.λa.λacc.P (true:::k) a∧acc) r True) True) |
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| 106 | [ // |
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| 107 | | #n #t' #X #Y #HXY #HX %1 |
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| 108 | [ @(proj1 ? ? HX) | @HXY @(proj2 ? ? HX) ] |
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[1516] | 109 | | whd in Hl; @Hl ] |
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[1006] | 110 | qed. |
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| 111 | |
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| 112 | lemma forall_noder: |
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| 113 | ∀A:Type[0]. |
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| 114 | ∀n:nat. |
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| 115 | ∀l,r. |
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| 116 | ∀P:BitVector (S n) → A → Prop. |
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| 117 | forall A (S n) (Node ? n l r) P → forall A n r (λx.λa.P (true:::x) a). |
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| 118 | #A #n #l #r #P #Hr |
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| 119 | whd @(fold_init A n (λk.λa.λacc.P (false:::k) a∧acc) l) |
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| 120 | [ #n #t' #P #HP @(proj2 ? ? HP) |
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| 121 | | @Hr |
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| 122 | ] |
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| 123 | qed. |
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| 124 | |
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[1044] | 125 | lemma forall_node: |
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| 126 | ∀A.∀n.∀l,r.∀P:BitVector (S n) → A → Prop. |
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| 127 | forall A n l (λx.λa.P (false:::x) a) → forall A n r (λx.λa.P (true:::x) a) → |
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| 128 | forall A (S n) (Node ? n l r) P. |
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| 129 | #A #n #l #r #P #Hl #Hr |
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| 130 | normalize @(fold_eq … True) |
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| 131 | [ #_ @Hr |
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| 132 | | #x #t' #X #Y #HXY #HP %1 [ @(proj1 … HP) | @HXY @(proj2 … HP) ] |
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| 133 | | @Hl |
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| 134 | ] |
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| 135 | qed. |
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| 136 | |
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[726] | 137 | let rec lookup_opt (A: Type[0]) (n: nat) |
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| 138 | (b: BitVector n) (t: BitVectorTrie A n) on t |
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| 139 | : option A ≝ |
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| 140 | (match t return λx.λ_. BitVector x → option A with |
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| 141 | [ Leaf l ⇒ λ_.Some ? l |
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| 142 | | Node h l r ⇒ λb. lookup_opt A ? (tail … b) (if head' … b then r else l) |
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| 143 | | Stub _ ⇒ λ_.None ? |
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| 144 | ]) b. |
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[1052] | 145 | |
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[1931] | 146 | alias id "bvt_lookup_opt" = "cic:/matita/cerco/ASM/BitVectorTrie/lookup_opt.fix(0,3,2)". |
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| 147 | |
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[1052] | 148 | definition member ≝ |
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| 149 | λA. |
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| 150 | λn. |
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| 151 | λb: BitVector n. |
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| 152 | λt: BitVectorTrie A n. |
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| 153 | match lookup_opt A n b t with |
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| 154 | [ None ⇒ false |
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| 155 | | _ ⇒ true |
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| 156 | ]. |
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| 157 | |
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| 158 | definition member_p ≝ |
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| 159 | λA. |
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| 160 | λn. |
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| 161 | λb: BitVector n. |
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| 162 | λt: BitVectorTrie A n. |
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| 163 | match lookup_opt A n b t with |
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| 164 | [ None ⇒ False |
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| 165 | | _ ⇒ True |
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| 166 | ]. |
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[1006] | 167 | |
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| 168 | lemma forall_lookup: |
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| 169 | ∀A. |
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| 170 | ∀n. |
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| 171 | ∀t:BitVectorTrie A n. |
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| 172 | ∀P:BitVector n → A → Prop. |
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| 173 | forall A n t P → ∀a:A.∀b.lookup_opt A n b t = Some ? a → P b a. |
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[1516] | 174 | #A #n #t #P generalize in match (refl ? n); elim t in P ⊢ (???% → ??%%? → ? → ? → ??(??%%%)? → ?); |
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[1006] | 175 | [ #x #f #_ #Hf #a #b whd in Hf; #Hb normalize in Hb; destruct >(BitVector_O b) @(proj1 ? ? Hf) |
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| 176 | | #h #l #r #Hl #Hr #f #_ #Hf #a #b #Hb cases (BitVector_Sn h b) |
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| 177 | #hd #bla elim bla -bla #tl #Htl >Htl in Hb; #Hb cases hd in Hb; |
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| 178 | [ #Hb normalize in Hb; @(Hr (λx.λa.f (true:::x) a) (refl ? h)) |
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| 179 | [ @(forall_noder A h l r f Hf) |
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| 180 | | @Hb |
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| 181 | ] |
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| 182 | | #Hb normalize in Hb; @(Hl (λx.λa.f (false:::x) a) (refl ? h)) |
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| 183 | [ @(forall_nodel A h l r f Hf) |
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| 184 | | @Hb |
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| 185 | ] |
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| 186 | ] |
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| 187 | | #n #f #_ #Hf #a #b #Hb normalize in Hb; destruct |
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| 188 | qed. |
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[726] | 189 | |
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[1044] | 190 | lemma lookup_forall: |
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| 191 | ∀A:Type[0].∀n.∀t:BitVectorTrie A n.∀P:BitVector n → A → Prop. |
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| 192 | (∀a:A.∀b:BitVector n.lookup_opt A n b t = Some ? a → P b a) → forall A n t P. |
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| 193 | #A #n #t elim t |
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| 194 | [ #x #P #HP normalize %1 [ @HP normalize @refl | // ] |
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| 195 | | #h #l #r #Hl #Hr #P #HP @forall_node |
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| 196 | [ @Hl #a #b #Hlookup @HP normalize @Hlookup |
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| 197 | | @Hr #a #b #Hlookup @HP normalize @Hlookup |
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| 198 | ] |
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| 199 | | #n #P #HP normalize // |
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| 200 | ] |
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| 201 | qed. |
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| 202 | |
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[475] | 203 | let rec lookup (A: Type[0]) (n: nat) |
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| 204 | (b: BitVector n) (t: BitVectorTrie A n) (a: A) on b |
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| 205 | : A ≝ |
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| 206 | (match b return λx.λ_. x = n → A with |
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| 207 | [ VEmpty ⇒ |
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| 208 | (match t return λx.λ_. O = x → A with |
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| 209 | [ Leaf l ⇒ λ_.l |
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| 210 | | Node h l r ⇒ λK.⊥ |
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| 211 | | Stub s ⇒ λ_.a |
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| 212 | ]) |
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| 213 | | VCons o hd tl ⇒ |
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| 214 | match t return λx.λ_. (S o) = x → A with |
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| 215 | [ Leaf l ⇒ λK.⊥ |
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| 216 | | Node h l r ⇒ |
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| 217 | match hd with |
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| 218 | [ true ⇒ λK. lookup A h (tl⌈o ↦ h⌉) r a |
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| 219 | | false ⇒ λK. lookup A h (tl⌈o ↦ h⌉) l a |
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| 220 | ] |
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| 221 | | Stub s ⇒ λ_. a] |
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| 222 | ]) (refl ? n). |
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| 223 | [1,2: |
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| 224 | destruct |
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| 225 | |*: |
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| 226 | @ injective_S |
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| 227 | // |
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| 228 | ] |
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| 229 | qed. |
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| 230 | |
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[1474] | 231 | alias id "bvt_lookup" = "cic:/matita/cerco/ASM/BitVectorTrie/lookup.fix(0,2,5)". |
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| 232 | |
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[475] | 233 | let rec prepare_trie_for_insertion (A: Type[0]) (n: nat) (b: BitVector n) (a:A) on b : BitVectorTrie A n ≝ |
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| 234 | match b with |
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| 235 | [ VEmpty ⇒ Leaf A a |
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| 236 | | VCons o hd tl ⇒ |
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| 237 | match hd with |
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| 238 | [ true ⇒ Node A o (Stub A o) (prepare_trie_for_insertion A o tl a) |
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| 239 | | false ⇒ Node A o (prepare_trie_for_insertion A o tl a) (Stub A o) |
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| 240 | ] |
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| 241 | ]. |
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| 242 | |
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| 243 | let rec insert (A: Type[0]) (n: nat) (b: BitVector n) (a: A) on b: BitVectorTrie A n → BitVectorTrie A n ≝ |
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| 244 | (match b with |
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| 245 | [ VEmpty ⇒ λ_. Leaf A a |
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| 246 | | VCons o hd tl ⇒ λt. |
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| 247 | match t return λy.λ_. S o = y → BitVectorTrie A (S o) with |
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| 248 | [ Leaf l ⇒ λprf.⊥ |
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| 249 | | Node p l r ⇒ λprf. |
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| 250 | match hd with |
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| 251 | [ true ⇒ Node A o (l⌈p ↦ o⌉) (insert A o tl a (r⌈p ↦ o⌉)) |
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| 252 | | false ⇒ Node A o (insert A o tl a (l⌈p ↦ o⌉)) (r⌈p ↦ o⌉) |
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| 253 | ] |
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| 254 | | Stub p ⇒ λprf. (prepare_trie_for_insertion A ? (hd:::tl) a) |
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| 255 | ] (refl ? (S o)) |
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| 256 | ]). |
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| 257 | [ destruct |
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| 258 | |*: |
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| 259 | @ injective_S |
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| 260 | // |
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| 261 | ] |
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[761] | 262 | qed. |
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[1034] | 263 | |
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[1553] | 264 | alias id "bvt_insert" = "cic:/matita/cerco/ASM/BitVectorTrie/insert.fix(0,2,5)". |
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| 265 | |
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[761] | 266 | let rec update (A: Type[0]) (n: nat) (b: BitVector n) (a: A) on b: BitVectorTrie A n → option (BitVectorTrie A n) ≝ |
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| 267 | (match b with |
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| 268 | [ VEmpty ⇒ λt. match t return λy.λ_. O = y → option (BitVectorTrie A O) with |
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| 269 | [ Leaf _ ⇒ λ_. Some ? (Leaf A a) |
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| 270 | | Stub _ ⇒ λ_. None ? |
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| 271 | | Node _ _ _ ⇒ λprf. ⊥ |
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| 272 | ] (refl ? O) |
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| 273 | | VCons o hd tl ⇒ λt. |
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| 274 | match t return λy.λ_. S o = y → option (BitVectorTrie A (S o)) with |
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| 275 | [ Leaf l ⇒ λprf.⊥ |
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| 276 | | Node p l r ⇒ λprf. |
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| 277 | match hd with |
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| 278 | [ true ⇒ option_map ?? (λv. Node A o (l⌈p ↦ o⌉) v) (update A o tl a (r⌈p ↦ o⌉)) |
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| 279 | | false ⇒ option_map ?? (λv. Node A o v (r⌈p ↦ o⌉)) (update A o tl a (l⌈p ↦ o⌉)) |
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| 280 | ] |
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| 281 | | Stub p ⇒ λprf. None ? |
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| 282 | ] (refl ? (S o)) |
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| 283 | ]). |
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| 284 | [ 1,2: destruct |
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| 285 | |*: |
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| 286 | @ injective_S @sym_eq @prf |
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| 287 | ] |
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| 288 | qed. |
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[779] | 289 | |
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| 290 | let rec merge (A: Type[0]) (n: nat) (b: BitVectorTrie A n) on b: BitVectorTrie A n → BitVectorTrie A n ≝ |
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| 291 | match b return λx. λ_. BitVectorTrie A x → BitVectorTrie A x with |
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| 292 | [ Stub _ ⇒ λc. c |
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| 293 | | Leaf l ⇒ λc. match c with [ Leaf a ⇒ Leaf ? a | _ ⇒ Leaf ? l ] |
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| 294 | | Node p l r ⇒ |
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| 295 | λc. |
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| 296 | (match c return λx. λ_. x = (S p) → BitVectorTrie A (S p) with |
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| 297 | [ Node p' l' r' ⇒ λprf. Node ? ? (merge ?? l (l'⌈p' ↦ p⌉)) (merge ?? r (r'⌈p' ↦ p⌉)) |
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| 298 | | Stub _ ⇒ λprf. Node ? p l r |
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| 299 | | Leaf _ ⇒ λabsd. ? |
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| 300 | ] (refl ? (S p))) |
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| 301 | ]. |
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| 302 | [1: |
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| 303 | destruct(absd) |
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| 304 | |2,3: |
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| 305 | @ injective_S |
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| 306 | assumption |
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| 307 | ] |
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| 308 | qed. |
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[985] | 309 | |
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| 310 | lemma BitVectorTrie_O: |
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| 311 | ∀A:Type[0].∀v:BitVectorTrie A 0.(∃w. v ≃ Leaf A w) ∨ v ≃ Stub A 0. |
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[1516] | 312 | #A #v generalize in match (refl … O); cases v in ⊢ (??%? → (?(??(λ_.?%%??)))(?%%??)); |
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[985] | 313 | [ #w #_ %1 %[@w] % |
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[990] | 314 | | #n #l #r #abs @⊥ destruct(abs) |
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[985] | 315 | | #n #EQ %2 >EQ %] |
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| 316 | qed. |
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| 317 | |
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| 318 | lemma BitVectorTrie_Sn: |
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| 319 | ∀A:Type[0].∀n.∀v:BitVectorTrie A (S n).(∃l,r. v ≃ Node A n l r) ∨ v ≃ Stub A (S n). |
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[1516] | 320 | #A #n #v generalize in match (refl … (S n)); cases v in ⊢ (??%? → (?(??(λ_.??(λ_.?%%??))))%); |
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[990] | 321 | [ #m #abs @⊥ destruct(abs) |
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[985] | 322 | | #m #l #r #EQ %1 <(injective_S … EQ) %[@l] %[@r] // |
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| 323 | | #m #EQ %2 // ] |
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| 324 | qed. |
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| 325 | |
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| 326 | lemma lookup_prepare_trie_for_insertion_hit: |
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| 327 | ∀A:Type[0].∀a,v:A.∀n.∀b:BitVector n. |
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| 328 | lookup … b (prepare_trie_for_insertion … b v) a = v. |
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| 329 | #A #a #v #n #b elim b // #m #hd #tl #IH cases hd normalize // |
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| 330 | qed. |
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| 331 | |
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| 332 | lemma lookup_insert_hit: |
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| 333 | ∀A:Type[0].∀a,v:A.∀n.∀b:BitVector n.∀t:BitVectorTrie A n. |
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| 334 | lookup … b (insert … b v t) a = v. |
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| 335 | #A #a #v #n #b elim b -b -n // |
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| 336 | #n #hd #tl #IH #t cases(BitVectorTrie_Sn … t) |
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| 337 | [ * #l * #r #JMEQ >JMEQ cases hd normalize // |
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| 338 | | #JMEQ >JMEQ cases hd normalize @lookup_prepare_trie_for_insertion_hit ] |
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| 339 | qed. |
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| 340 | |
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| 341 | lemma lookup_prepare_trie_for_insertion_miss: |
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| 342 | ∀A:Type[0].∀a,v:A.∀n.∀c,b:BitVector n. |
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| 343 | (notb (eq_bv ? b c)) → lookup … b (prepare_trie_for_insertion … c v) a = a. |
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| 344 | #A #a #v #n #c elim c |
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| 345 | [ #b >(BitVector_O … b) normalize #abs @⊥ // |
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| 346 | | #m #hd #tl #IH #b cases(BitVector_Sn … b) #hd' * #tl' #JMEQ >JMEQ |
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| 347 | cases hd cases hd' normalize |
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| 348 | [2,3: #_ cases tl' // |
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| 349 | |*: change with (bool_to_Prop (notb (eq_bv ???)) → ?) /2/ ]] |
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| 350 | qed. |
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| 351 | |
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| 352 | lemma lookup_insert_miss: |
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| 353 | ∀A:Type[0].∀a,v:A.∀n.∀c,b:BitVector n.∀t:BitVectorTrie A n. |
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| 354 | (notb (eq_bv ? b c)) → lookup … b (insert … c v t) a = lookup … b t a. |
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| 355 | #A #a #v #n #c elim c -c -n |
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[1516] | 356 | [ #b #t #DIFF @⊥ whd in DIFF; >(BitVector_O … b) in DIFF; // |
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[985] | 357 | | #n #hd #tl #IH #b cases(BitVector_Sn … b) #hd' * #tl' #JMEQ >JMEQ |
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| 358 | #t cases(BitVectorTrie_Sn … t) |
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| 359 | [ * #l * #r #JMEQ >JMEQ cases hd cases hd' #H normalize in H; |
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[1521] | 360 | [1,4: change with (bool_to_Prop (notb (eq_bv ???))) in H; ] normalize // @IH // |
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[985] | 361 | | #JMEQ >JMEQ cases hd cases hd' #H normalize in H; |
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[1521] | 362 | [1,4: change with (bool_to_Prop (notb (eq_bv ???))) in H; ] normalize |
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[985] | 363 | [3,4: cases tl' // | *: @lookup_prepare_trie_for_insertion_miss //]]] |
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| 364 | qed. |
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[1034] | 365 | |
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| 366 | lemma lookup_stub: |
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| 367 | ∀A.∀n.∀b.∀a. |
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| 368 | lookup A n b (Stub A ?) a = a. |
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[1516] | 369 | #A #n #b #a cases n in b ⊢ (??(??%%%?)?); |
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[1034] | 370 | [ #b >(BitVector_O b) normalize @refl |
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| 371 | | #h #b cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb >Hb cases hd |
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| 372 | [ normalize @refl |
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| 373 | | normalize @refl |
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| 374 | ] |
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| 375 | ] |
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| 376 | qed. |
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| 377 | |
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[1393] | 378 | lemma lookup_opt_lookup_miss: |
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[1524] | 379 | ∀A:Type[0].∀n:nat.∀b:BitVector n.∀t:BitVectorTrie A n. |
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[1393] | 380 | lookup_opt A n b t = None A → ∀x.lookup A n b t x = x. |
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[1524] | 381 | #A #n #b #t generalize in match (refl ? n); elim t in b ⊢ (???% → ??(??%%%)? → ? → ?); |
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[1393] | 382 | [ #a #B #_ #H #x normalize in H; >(BitVector_O B) normalize destruct |
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| 383 | | #h #l #r #Hl #Hr #b #_ #H #x cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb |
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| 384 | >Hb >Hb in H; cases hd |
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| 385 | [ normalize #Hlookup @(Hr ? (refl ? h)) @Hlookup |
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| 386 | | normalize #Hlookup @(Hl ? (refl ? h)) @Hlookup |
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| 387 | ] |
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| 388 | | #n #B #_ #H #x @lookup_stub |
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| 389 | ] |
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| 390 | qed. |
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| 391 | |
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| 392 | lemma lookup_opt_lookup_hit: |
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| 393 | ∀A:Type[0].∀n:nat.∀b:BitVector n.∀t:BitVectorTrie A n.∀a:A. |
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[1034] | 394 | lookup_opt A n b t = Some A a → ∀x.lookup A n b t x = a. |
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[1516] | 395 | #A #n #b #t #a generalize in match (refl ? n); elim t in b ⊢ (???% → ??(??%%%)? → ? → ?); |
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[1034] | 396 | [ #a #B #_ #H #x normalize in H; >(BitVector_O B) normalize destruct @refl |
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[1393] | 397 | | #h #l #r #Hl #Hr #b #_ #H #x cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb |
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[1034] | 398 | >Hb >Hb in H; cases hd |
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| 399 | [ normalize #Hlookup @(Hr ? (refl ? h)) @Hlookup |
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| 400 | | normalize #Hlookup @(Hl ? (refl ? h)) @Hlookup |
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| 401 | ] |
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| 402 | | #n #B #_ #H #x normalize in H; destruct |
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| 403 | ] |
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| 404 | qed. |
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| 405 | |
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[1393] | 406 | lemma lookup_lookup_opt_hit: |
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[1074] | 407 | ∀A.∀n.∀b.∀t.∀x,a. |
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| 408 | lookup A n b t x = a → x ≠ a → lookup_opt A n b t = Some A a. |
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[1516] | 409 | #A #n #b #t #x #a generalize in match (refl ? n); elim t in b ⊢ (???% → ? → ?); |
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[1074] | 410 | [ #z #B #_ #H #Hx >(BitVector_O B) in H; normalize #H >H @refl |
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| 411 | | #h #l #r #Hl #Hr #B #_ #H #Hx cases (BitVector_Sn h B) #hd #X elim X; -X #tl #HB |
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| 412 | >HB >HB in H; cases hd |
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| 413 | [ normalize #H >(Hr tl (refl ? h) H Hx) @refl |
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| 414 | | normalize #H >(Hl tl (refl ? h) H Hx) @refl |
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| 415 | ] |
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| 416 | | #n #B #_ #H #Hx cases B in H; |
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| 417 | [ normalize #Hx' | #n' #b #v normalize #Hx' ] |
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| 418 | @⊥ @(absurd (eq ? x a)) [1,3: @Hx' |2,4: @Hx ] |
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| 419 | ] |
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| 420 | qed. |
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| 421 | |
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[1553] | 422 | lemma lookup_opt_lookup: |
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| 423 | ∀A,n,b,t1,t2,x. |
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| 424 | lookup_opt A n b t1 = lookup_opt A n b t2 → lookup A n b t1 x = lookup A n b t2 x. |
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| 425 | #A #n #b #t1 #t2 #x lapply (refl ? (lookup_opt A n b t2)) |
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| 426 | cases (lookup_opt A n b t2) in ⊢ (???% → %); |
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| 427 | [ #H2 #H1 >(lookup_opt_lookup_miss … H1) >(lookup_opt_lookup_miss … H2) // |
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| 428 | | #y #H2 #H1 >(lookup_opt_lookup_hit … y H1) >(lookup_opt_lookup_hit … y H2) // |
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| 429 | ] |
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| 430 | qed. |
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| 431 | |
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[1034] | 432 | lemma lookup_opt_prepare_trie_for_insertion_hit: |
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| 433 | ∀A:Type[0].∀v:A.∀n.∀b:BitVector n. |
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| 434 | lookup_opt … b (prepare_trie_for_insertion … b v) = Some A v. |
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| 435 | #A #v #n #b elim b // #m #hd #tl #IH cases hd normalize // |
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| 436 | qed. |
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| 437 | |
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[1070] | 438 | lemma lookup_opt_prepare_trie_for_insertion_miss: |
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| 439 | ∀A:Type[0].∀v:A.∀n.∀c,b:BitVector n. |
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| 440 | (notb (eq_bv ? b c)) → lookup_opt … b (prepare_trie_for_insertion … c v) = None ?. |
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| 441 | #A #v #n #c elim c |
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| 442 | [ #b >(BitVector_O … b) normalize #abs @⊥ // |
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| 443 | | #m #hd #tl #IH #b cases(BitVector_Sn … b) #hd' * #tl' #JMEQ >JMEQ |
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| 444 | cases hd cases hd' normalize |
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| 445 | [2,3: #_ cases tl' // |
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| 446 | |*: change with (bool_to_Prop (notb (eq_bv ???)) → ?) @IH ]] |
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| 447 | qed. |
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| 448 | |
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[1034] | 449 | lemma lookup_opt_insert_hit: |
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| 450 | ∀A:Type[0].∀v:A.∀n.∀b:BitVector n.∀t:BitVectorTrie A n. |
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| 451 | lookup_opt … b (insert … b v t) = Some A v. |
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[1516] | 452 | #A #v #n #b #t elim t in b ⊢ (??(??%%%)?); |
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[1034] | 453 | [ #x #b >(BitVector_O b) normalize @refl |
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| 454 | | #h #l #r #Hl #Hr #b cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb >Hb cases hd |
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| 455 | [ normalize @Hr |
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| 456 | | normalize @Hl |
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| 457 | ] |
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[1516] | 458 | | #n' #b cases n' in b ⊢ ?; |
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[1034] | 459 | [ #b >(BitVector_O b) normalize @refl |
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| 460 | | #m #b cases (BitVector_Sn m b) #hd #X elim X -X; #tl #Hb >Hb cases hd |
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| 461 | normalize @lookup_opt_prepare_trie_for_insertion_hit |
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| 462 | ] |
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| 463 | ] |
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| 464 | qed. |
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[1070] | 465 | |
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| 466 | lemma lookup_opt_insert_miss: |
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| 467 | ∀A:Type[0].∀v:A.∀n.∀c,b:BitVector n.∀t:BitVectorTrie A n. |
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| 468 | (notb (eq_bv ? b c)) → lookup_opt … b (insert … c v t) = lookup_opt … b t. |
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| 469 | #A #v #n #c elim c -c -n |
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[1516] | 470 | [ #b #t #DIFF @⊥ whd in DIFF; >(BitVector_O … b) in DIFF; // |
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[1070] | 471 | | #n #hd #tl #IH #b cases(BitVector_Sn … b) #hd' * #tl' #JMEQ >JMEQ |
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| 472 | #t cases(BitVectorTrie_Sn … t) |
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| 473 | [ * #l * #r #JMEQ >JMEQ cases hd cases hd' #H normalize in H; |
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[1521] | 474 | [1,4: change with (bool_to_Prop (notb (eq_bv ???))) in H; ] normalize // @IH // |
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[1070] | 475 | | #JMEQ >JMEQ cases hd cases hd' #H normalize in H; |
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[1521] | 476 | [1,4: change with (bool_to_Prop (notb (eq_bv ???))) in H; ] normalize |
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[1070] | 477 | [3,4: cases tl' // | *: @lookup_opt_prepare_trie_for_insertion_miss //]]] |
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| 478 | qed. |
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| 479 | |
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[2028] | 480 | lemma insert_lookup_opt_hit: |
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[1479] | 481 | ∀A:Type[0].∀v,a:A.∀n.∀c,b:BitVector n.∀t:BitVectorTrie A n. |
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[1632] | 482 | lookup_opt … b (insert … c v t) = Some A a → lookup_opt … b t = Some A a ∨ (b = c ∧ a = v). |
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[1479] | 483 | #A #v #a #n #c elim c -c; -n; |
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[1632] | 484 | [ #b #t #Hl normalize in Hl; %2 destruct (Hl) @conj [ @BitVector_O | @refl ] |
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[1479] | 485 | | #n #hd #tl #Hind #b cases (BitVector_Sn … b) #hd' * #tl' #Heq >Heq |
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| 486 | #t cases (BitVectorTrie_Sn … t) |
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| 487 | [ * #l * #r #Heq2 >Heq2 cases hd cases hd' #H normalize in H; normalize |
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[1632] | 488 | [1,4: cases (Hind tl' ? H) #Hi2 [1,3: %1 @Hi2 |2,4: %2 @conj |
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| 489 | [1,3: >(proj1 ?? Hi2) @refl |
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| 490 | |2,4: @(proj2 ?? Hi2) ] ] |
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[1479] | 491 | |2,3: %1 @H |
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| 492 | ] |
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| 493 | | #Heq2 >Heq2 cases hd cases hd' #H normalize in H; normalize |
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[1516] | 494 | [1,4: lapply (refl ? (eq_bv ? tl' tl)) cases (eq_bv ? tl' tl) in ⊢ (???% → %); #Heq3 |
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[1632] | 495 | [1,3: >(eq_bv_eq … Heq3) in H; >lookup_opt_prepare_trie_for_insertion_hit #X destruct (X) %2 /2 by pair_destruct/ |
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[1516] | 496 | |2,4: >(lookup_opt_prepare_trie_for_insertion_miss) in H; |
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[1479] | 497 | [1,3: #X %1 // |
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| 498 | |2,4: >Heq3 // |
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| 499 | ] |
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| 500 | ] |
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| 501 | |2,3: destruct (H) |
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| 502 | ] |
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| 503 | qed. |
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| 504 | |
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[2028] | 505 | lemma insert_lookup_opt_miss: |
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| 506 | ∀A:Type[0].∀v:A.∀n.∀c,b:BitVector n.∀t:BitVectorTrie A n. |
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| 507 | lookup_opt … b (insert … c v t) = None A → |
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| 508 | (notb (eq_bv n b c)) = true ∧ lookup_opt … b t = None A. |
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| 509 | #A #v #n #c elim c -c; -n; |
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| 510 | [ #b #t #Hl normalize in Hl; destruct (Hl) |
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| 511 | | #n #hd #tl #Hind #b cases (BitVector_Sn … b) #hd' * #tl' #Heq >Heq |
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| 512 | #t cases (BitVectorTrie_Sn … t) |
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| 513 | [ * #l * #r #Heq2 >Heq2 cases hd cases hd' #H normalize in H; normalize |
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| 514 | [1,4: lapply (refl ? (eq_bv ? tl' tl)) cases (eq_bv ? tl' tl) in ⊢ (???% ->%); #Heq3 |
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| 515 | [1,3: >(eq_bv_eq … Heq3) in H; >lookup_opt_insert_hit #H destruct (H) |
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| 516 | |2,4: >lookup_opt_insert_miss in H; |
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| 517 | [1,3: #H whd in match eq_bv in Heq3; >Heq3 @conj |
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| 518 | [1,3: / by refl/ |
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| 519 | |2,4: @H |
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| 520 | ] |
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| 521 | |2,4: >Heq3 / by I/ |
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| 522 | ] |
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| 523 | ] |
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| 524 | |2,3: @conj |
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| 525 | [1,3: @refl |
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| 526 | |2,4: @H |
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| 527 | ] |
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| 528 | ] |
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| 529 | | #Heq2 >Heq2 cases hd cases hd' #H normalize in H; normalize |
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| 530 | [1,4: lapply (refl ? (eq_bv ? tl' tl)) cases (eq_bv ? tl' tl) in ⊢ (???% → %); #Heq3 |
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| 531 | [1,3: >(eq_bv_eq … Heq3) in H; >lookup_opt_prepare_trie_for_insertion_hit #X destruct (X) |
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| 532 | |2,4: >(lookup_opt_prepare_trie_for_insertion_miss) in H; |
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| 533 | [1,3: #X @conj |
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| 534 | [1,3: whd in match (eq_bv ???) in Heq3; >Heq3 / by refl/ |
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| 535 | |2,4: @refl |
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| 536 | ] |
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| 537 | |2,4: >Heq3 / by I/ |
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| 538 | ] |
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| 539 | ] |
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| 540 | |2,3: @conj @refl |
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| 541 | ] |
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| 542 | ] |
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| 543 | ] |
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| 544 | qed. |
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| 545 | |
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[1034] | 546 | lemma forall_insert_inv1: |
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| 547 | ∀A.∀n.∀b.∀a.∀t.∀P. |
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| 548 | forall A n (insert A n b a t) P → P b a. |
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| 549 | #A #n #b #a #t #P #H @(forall_lookup ? ? (insert A n b a t)) |
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| 550 | [ @H |
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| 551 | | >(lookup_opt_insert_hit A ? n b) @(refl ? (Some A a)) |
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| 552 | ] |
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| 553 | qed. |
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| 554 | |
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| 555 | lemma forall_insert_inv2a: |
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| 556 | ∀A:Type[0].∀n:nat.∀b.∀a.∀t.∀P. |
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| 557 | lookup_opt A n b t = (None A) → forall A n (insert A n b a t) P → forall A n t P. |
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[1516] | 558 | #A #n #b #a #t generalize in match (refl ? n); elim t in b ⊢ (???% → ? → ??(??%%%)? → ??%%% → ??%%%); |
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[1034] | 559 | [ #x #b #_ #P >(BitVector_O b) normalize #H destruct |
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| 560 | | #h #l #r #Hl #Hr #b #_ #P cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb >Hb cases hd #Hlookup #H |
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| 561 | [ normalize in H; normalize |
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| 562 | @(fold_eq … (fold A ? ? (λx.λa0.λacc.P (true:::x) a0∧acc) (insert … tl a r) True) … H) |
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| 563 | [ #Hfold @(Hr tl (refl ? h) ? Hlookup Hfold) |
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| 564 | | #x #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ?HP)) ] |
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| 565 | ] |
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| 566 | | normalize in H; normalize |
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| 567 | @(fold_eq … True) |
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| 568 | [ #_ @(fold_init A h (λx.λa0.λacc.P (false:::x) a0 ∧ acc) (insert A h tl a l)) |
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| 569 | [ #z #t' #X #HX @(proj2 ? ? HX) |
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| 570 | | @H ] |
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| 571 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
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| 572 | | @(Hl tl (refl ? h) ? Hlookup) normalize |
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| 573 | @(fold_eq … (fold A ? ? (λx.λa0.λacc.P (true:::x) a0∧acc) r True)) |
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| 574 | [ // |
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| 575 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
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| 576 | | @H |
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| 577 | ] |
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| 578 | ] |
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| 579 | ] |
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| 580 | | #n #b #_ #P #Hlookup #Hf normalize // ] |
---|
[1393] | 581 | qed. |
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[1034] | 582 | |
---|
| 583 | lemma forall_insert_inv2b: |
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| 584 | ∀A:Type[0].∀n:nat.∀b:BitVector n.∀a:A.∀t.∀P:(BitVector n → A → Prop). |
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| 585 | (∀x.(lookup_opt A n b t = Some A x) → P b x) → forall A n (insert A n b a t) P → forall A n t P. |
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[1516] | 586 | #A #n #b #a #t generalize in match (refl ? n); elim t in b ⊢ (???% → % → ? → ??%%% → ?); |
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[1034] | 587 | [ #x #b #_ #P >(BitVector_O b) normalize #HP #Hf %1 [ @HP @refl | @(proj2 ? ? Hf) ] |
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| 588 | | #h #l #r #Hl #Hr #b #_ cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb >Hb cases hd #P #HP #Hf |
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| 589 | [ normalize in Hf; normalize |
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| 590 | @(fold_eq … (fold A ? ? (λx.λa0.λacc.P (true:::x) a0∧acc) (insert … tl a r) True) … Hf) |
---|
| 591 | [ #Hfold @(Hr tl (refl ? h) ? HP Hfold) |
---|
| 592 | | #x #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
---|
| 593 | ] |
---|
| 594 | | normalize in H; normalize |
---|
| 595 | @(fold_eq … True) |
---|
| 596 | [ #_ @(fold_init A h (λx.λa0.λacc.P (false:::x) a0 ∧ acc) (insert A h tl a l)) |
---|
| 597 | [ #z #t' #X #HX @(proj2 ? ? HX) |
---|
| 598 | | @Hf ] |
---|
| 599 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
---|
| 600 | | @(Hl tl (refl ? h) ? HP) normalize |
---|
| 601 | @(fold_eq … (fold A ? ? (λx.λa0.λacc.P (true:::x) a0∧acc) r True)) |
---|
| 602 | [ // |
---|
| 603 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
---|
| 604 | | @Hf |
---|
| 605 | ] |
---|
| 606 | ] |
---|
| 607 | ] |
---|
| 608 | | #n #b #_ #P #Hlookup #Hf normalize // ] |
---|
[1038] | 609 | qed. |
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| 610 | |
---|
| 611 | lemma forall_prepare_tree_for_insertion: |
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| 612 | ∀A:Type[0].∀h:nat.∀b:BitVector h.∀a:A.∀P. |
---|
| 613 | P b a → |
---|
| 614 | forall A h (prepare_trie_for_insertion A h b a) P. |
---|
| 615 | #A #h #b elim b |
---|
| 616 | [ #a #P #HP normalize %1 [ @HP | // ] |
---|
| 617 | | #h #x #tl #Ha #a #P cases x #HP normalize @Ha @HP |
---|
| 618 | ] |
---|
| 619 | qed. |
---|
| 620 | |
---|
| 621 | lemma forall_insert: |
---|
| 622 | ∀A:Type[0].∀n:nat.∀b:BitVector n.∀a:A.∀t.∀P. |
---|
| 623 | forall A n t P → P b a → forall A n (insert A n b a t) P. |
---|
[1516] | 624 | #A #n #b #a #t generalize in match (refl ? n); elim t in b ⊢ (???% → % → ??%%% → %%? → ??%%%); |
---|
[1038] | 625 | [ #x #b #_ #P >(BitVector_O b) normalize #H1 #H2 /2/ |
---|
| 626 | | #h #l #r #Hl #Hr #b #_ cases (BitVector_Sn h b) #hd #X elim X -X; #tl #Hb >Hb cases hd #P #Hf #HP |
---|
| 627 | [ normalize in Hf; normalize |
---|
| 628 | @(fold_eq A … (fold A … (λx.λa0.λacc.P (true:::x) a0∧acc) r True) … Hf) |
---|
| 629 | [ #Hp @(Hr tl (refl ? h) ? Hp HP) |
---|
| 630 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
---|
| 631 | ] |
---|
| 632 | | normalize in Hf; normalize |
---|
| 633 | @(fold_eq … True) |
---|
| 634 | [ #_ @(fold_init A h (λx.λa0.λacc.P (false:::x) a0∧acc) l) |
---|
| 635 | [ #z #t' #X #HX @(proj2 ? ? HX) |
---|
| 636 | | @Hf ] |
---|
| 637 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
---|
| 638 | | @(Hl tl (refl ? h) ? ? HP) |
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| 639 | normalize @(fold_eq … (fold A ? ? (λx.λa0.λacc.P (true:::x) a0∧acc) r True)) |
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| 640 | [ // |
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| 641 | | #z #t' #X #Y #HXY #HP %1 [ @(proj1 ? ? HP) | @(HXY (proj2 ? ? HP)) ] |
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| 642 | | @Hf |
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| 643 | ] |
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| 644 | ] |
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| 645 | ] |
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[1516] | 646 | | #n #b #_ elim b in t ⊢ (% → ? → ? → ??%%%); |
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[1038] | 647 | [ #b #P #Hf #HP normalize %1 [ @HP | // ] |
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| 648 | | #h #hd #tl #H #b #P #Hf cases hd #HP normalize @(forall_prepare_tree_for_insertion A h tl a ? HP) |
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| 649 | ] |
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| 650 | ] |
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[1393] | 651 | qed. |
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[1316] | 652 | |
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| 653 | lemma update_fail : ∀A,n,b,a,t. |
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| 654 | update A n b a t = None ? → |
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| 655 | lookup_opt A n b t = None ?. |
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| 656 | #A #n elim n |
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| 657 | [ #b @(vector_inv_n … b) #a #t cases (BitVectorTrie_O … t) |
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| 658 | [ * #x #E >E normalize #NE destruct |
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| 659 | | #E >E normalize // |
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| 660 | ] |
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| 661 | | #m #IH #b @(vector_inv_n … b) #hd #tl #a #t cases (BitVectorTrie_Sn … t) |
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[1516] | 662 | [ * #t1 * #t2 #E >E cases hd whd in ⊢ (??%? → ??%?); |
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[1316] | 663 | #X lapply (option_map_none … X) @IH |
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| 664 | | #E >E normalize // |
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| 665 | ] |
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| 666 | ] qed. |
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| 667 | |
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| 668 | lemma update_lookup_opt_same : ∀A,n,b,a,t,t'. |
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| 669 | update A n b a t = Some ? t' → |
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| 670 | lookup_opt A n b t' = Some ? a. |
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| 671 | #A #n elim n |
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| 672 | [ #b #a #t #t' @(vector_inv_n … b) |
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| 673 | cases (BitVectorTrie_O … t) |
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| 674 | [ * #x #E >E normalize #E' destruct @refl |
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| 675 | | #E >E normalize #E' destruct |
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| 676 | ] |
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| 677 | | #m #IH #b #a #t #t' |
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| 678 | @(vector_inv_n … b) #bhd #btl |
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| 679 | cases (BitVectorTrie_Sn … t) |
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| 680 | [ * #t1 * #t2 #E' >E' |
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[1516] | 681 | whd in ⊢ (??%? → ??%?); cases bhd #U |
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[1316] | 682 | cases (option_map_some ????? U) |
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| 683 | #tn' * #U' #E'' <E'' |
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[1516] | 684 | whd in ⊢ (??%?); whd in ⊢ (??(???%%)?); |
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[1316] | 685 | @(IH … U') |
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| 686 | | #E >E normalize #E' destruct |
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| 687 | ] |
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| 688 | ] qed. |
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| 689 | |
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| 690 | lemma update_lookup_opt_other : ∀A,n,b,a,t,t'. |
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| 691 | update A n b a t = Some ? t' → |
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| 692 | ∀b'. b ≠ b' → |
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| 693 | lookup_opt A n b' t = lookup_opt A n b' t'. |
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| 694 | #A #n elim n |
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| 695 | [ #b #a #t #t' #E #b' |
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| 696 | @(vector_inv_n … b) @(vector_inv_n … b') |
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| 697 | * #NE cases (NE (refl ??)) |
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| 698 | | #m #IH #b #a #t #t' |
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| 699 | @(vector_inv_n … b) #bhd #btl |
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| 700 | cases (BitVectorTrie_Sn … t) |
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[1516] | 701 | [ * #t1 * #t2 #E >E whd in ⊢ (??%? → ?); cases bhd |
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[1316] | 702 | #U cases (option_map_some ????? U) #tn' * #U' #E' <E' |
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| 703 | #b' @(vector_inv_n … b') #bhd' #btl' |
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| 704 | cases bhd' |
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| 705 | [ 2,3: #_ @refl |
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[1516] | 706 | | *: #NE whd in ⊢ (??%%); whd in ⊢ (??(???%%)(???%%)); |
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| 707 | @(IH … U') % #E'' >E'' in NE; * #H @H @refl |
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[1316] | 708 | ] |
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[1516] | 709 | | #E >E whd in ⊢ (??%? → ?); #NE destruct |
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[1316] | 710 | ] |
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[1524] | 711 | ] qed. |
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