Proof of Nuprl Lemma : concat-lifting-list-member

Step * 2 2 1 of Lemma concat-lifting-list-member

1. B : Type
2. n : ℕ
3. A : ℕn ⟶ Type
4. bags : k:ℕn ⟶ bag(A k)
5. b : B
6. p : ℤ
7. 0 < p
8. 0 ≤ (n - p) + 1 < n + 1
⇒ (∀f:funtype(p - 1;λx.(A (x + (n - p) + 1));bag(B))
((↓∃lst:k:{(n - p) + 1..n^-} ⟶ (A k)

          ((∀[k:{(n - p) + 1..n^-}]. lst k ↓∈ bags k) ∧ b ↓∈ uncurry-gen(n) ((n - p) + 1) (λx.f) lst))

⇒ b ↓∈ bag-union(lifting-gen-list-rev(n;bags) ((n - p) + 1) f)))
9. 0 ≤ (n - p)
10. n - p < n + 1
11. f : (A (0 + (n - p))) ⟶ funtype(p - 1;λi.(A ((i + 1) + (n - p)));bag(B))

12. ↓∃lst:k:{n - p..n^-} ⟶ (A k). ((∀[k:{n - p..n^-}]. lst k ↓∈ bags k) ∧ b ↓∈ uncurry-gen(n) (n - p) (λx.f) lst)

13. uiff(b ↓∈ bag-union(⋃x∈bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1)
(f x));↓∃b@0:bag(B)
(b ↓∈ b@0

                                                 ∧ b@0 ↓∈ ⋃x∈bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1)

                                                                          (f x)))

⊢ b ↓∈ bag-union(⋃x∈bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1) (f x))
BY
{ (D (-1) THEN BHyp (-1) THEN Thin (-1) THEN Thin (-1) THEN RepeatFor 3 (D (-1))) }

1
1. B : Type
2. n : ℕ
3. A : ℕn ⟶ Type
4. bags : k:ℕn ⟶ bag(A k)
5. b : B
6. p : ℤ
7. 0 < p
8. 0 ≤ (n - p) + 1 < n + 1
⇒ (∀f:funtype(p - 1;λx.(A (x + (n - p) + 1));bag(B))
((↓∃lst:k:{(n - p) + 1..n^-} ⟶ (A k)

          ((∀[k:{(n - p) + 1..n^-}]. lst k ↓∈ bags k) ∧ b ↓∈ uncurry-gen(n) ((n - p) + 1) (λx.f) lst))

⇒ b ↓∈ bag-union(lifting-gen-list-rev(n;bags) ((n - p) + 1) f)))
9. 0 ≤ (n - p)
10. n - p < n + 1
11. f : (A (0 + (n - p))) ⟶ funtype(p - 1;λi.(A ((i + 1) + (n - p)));bag(B))
12. lst : k:{n - p..n^-} ⟶ (A k)
13. ∀[k:{n - p..n^-}]. lst k ↓∈ bags k
14. b ↓∈ uncurry-gen(n) (n - p) (λx.f) lst

⊢ ↓∃b@0:bag(B). (b ↓∈ b@0 ∧ b@0 ↓∈ ⋃x∈bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1) (f x))

Latex:

Latex:
1. B : Type 2. n : \mBbbN{} 3. A : \mBbbN{}n {}\mrightarrow{} Type 4. bags : k:\mBbbN{}n {}\mrightarrow{} bag(A k) 5. b : B 6. p : \mBbbZ{} 7. 0 < p 8. 0 \mleq{} (n - p) + 1 < n + 1 {}\mRightarrow{} (\mforall{}f:funtype(p - 1;\mlambda{}x.(A (x + (n - p) + 1));bag(B)) ((\mdownarrow{}\mexists{}lst:k:\{(n - p) + 1..n\msupminus{}\} {}\mrightarrow{} (A k) ((\mforall{}[k:\{(n - p) + 1..n\msupminus{}\}]. lst k \mdownarrow{}\mmember{} bags k) \mwedge{} b \mdownarrow{}\mmember{} uncurry-gen(n) ((n - p) + 1) (\mlambda{}x.f) lst)) {}\mRightarrow{} b \mdownarrow{}\mmember{} bag-union(lifting-gen-list-rev(n;bags) ((n - p) + 1) f))) 9. 0 \mleq{} (n - p) 10. n - p < n + 1 11. f : (A (0 + (n - p))) {}\mrightarrow{} funtype(p - 1;\mlambda{}i.(A ((i + 1) + (n - p)));bag(B)) 12. \mdownarrow{}\mexists{}lst:k:\{n - p..n\msupminus{}\} {}\mrightarrow{} (A k) ((\mforall{}[k:\{n - p..n\msupminus{}\}]. lst k \mdownarrow{}\mmember{} bags k) \mwedge{} b \mdownarrow{}\mmember{} uncurry-gen(n) (n - p) (\mlambda{}x.f) lst) 13. uiff(b \mdownarrow{}\mmember{} bag-union(\mcup{}x\mmember{}bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1) (f x));\mdownarrow{}\mexists{}b@0:bag(B) (b \mdownarrow{}\mmember{} b@0 \mwedge{} b@0 \mdownarrow{}\mmember{} \mcup{}x\mmember{}bags (n - p). lifting-gen-list-rev(n;bags) ((n - p) + 1) (f x))) \mvdash{} b \mdownarrow{}\mmember{} bag-union(\mcup{}x\mmember{}bags (n - p).lifting-gen-list-rev(n;bags) ((n - p) + 1) (f x)) By Latex: (D (-1) THEN BHyp (-1) THEN Thin (-1) THEN Thin (-1) THEN RepeatFor 3 (D (-1))) Home Index