Proof of Nuprl Lemma : accum_split

Step * 2 1 1 1 2 2 of Lemma accum_split_prefix2

1. A : Type
2. T : Type
3. x : A
4. g : (T List × A) ⟶ A
5. f : (T List × A) ⟶ 𝔹
6. ys : T List
7. y : T
8. ∀ZZ:(T List × A) List. ∀Z,X:T List × A.
((accum_split(g;x;f;ys) = <ZZ @ [Z], X> ∈ ((T List × A) List × T List × A))
⇒

 (accum_split(g;x;f;concat(map(λp.(fst(p));ZZ @ [Z]))) = <ZZ, Z> ∈ ((T List × A) List × T List × A)))

9. ZZ : (T List × A) List
10. Z : T List × A
11. X : T List × A
12. v3 : T List
13. v4 : A
14. is_accum_splitting(T;A;ys;[];<v3, v4>;f;g;x)
15. accum_split(g;x;f;ys)
= <[], v3, v4>
∈ {p:(T List × A) List × T List × A| let LL,L2 = p in is_accum_splitting(T;A;ys;LL;L2;f;g;x)}
16. True
17. ¬(v3 = [] ∈ (T List))
18. ¬↑(f <v3, v4>)
19. <[], v3 @ [y], v4> = <ZZ @ [Z], X> ∈ ((T List × A) List × T List × A)

⊢ accum_split(g;x;f;concat(map(λp.(fst(p));ZZ @ [Z]))) = <ZZ, Z> ∈ ((T List × A) List × T List × A)

BY
{ (AutoSimpHyp Auto (-1) THEN Auto) }

Latex:

Latex:
1. A : Type 2. T : Type 3. x : A 4. g : (T List \mtimes{} A) {}\mrightarrow{} A 5. f : (T List \mtimes{} A) {}\mrightarrow{} \mBbbB{} 6. ys : T List 7. y : T 8. \mforall{}ZZ:(T List \mtimes{} A) List. \mforall{}Z,X:T List \mtimes{} A. ((accum\_split(g;x;f;ys) = <ZZ @ [Z], X>) {}\mRightarrow{} (accum\_split(g;x;f;concat(map(\mlambda{}p.(fst(p));ZZ @ [Z]))) = <ZZ, Z>)) 9. ZZ : (T List \mtimes{} A) List 10. Z : T List \mtimes{} A 11. X : T List \mtimes{} A 12. v3 : T List 13. v4 : A 14. is\_accum\_splitting(T;A;ys;[];<v3, v4>f;g;x) 15. accum\_split(g;x;f;ys) = <[], v3, v4> 16. True 17. \mneg{}(v3 = []) 18. \mneg{}\muparrow{}(f <v3, v4>) 19. <[], v3 @ [y], v4> = <ZZ @ [Z], X> \mvdash{} accum\_split(g;x;f;concat(map(\mlambda{}p.(fst(p));ZZ @ [Z]))) = <ZZ, Z> By Latex: (AutoSimpHyp Auto (-1) THEN Auto) Home Index