Proof of Nuprl Lemma : do-apply-p-first

Step * 2 2 2 of Lemma do-apply-p-first

1. A : Type
2. B : Type
3. u : A ⟶ (B + Top)
4. v : (A ⟶ (B + Top)) List

5. ∀[x:A]. do-apply(p-first(v);x) = do-apply(hd(filter(λf.can-apply(f;x);v));x) ∈ B supposing ↑can-apply(p-first(v);x)

6. x : A
7. (↑can-apply(p-first([u]);x)) ∨ (↑can-apply(p-first(v);x))
8. ¬↑can-apply(p-first([u]);x)
⊢ do-apply(p-first([u] @ v);x) = do-apply(hd(filter(λf.can-apply(f;x);[u] @ v));x) ∈ B
BY
{ (D (-2) THEN Auto) }

1
1. A : Type
2. B : Type
3. u : A ⟶ (B + Top)
4. v : (A ⟶ (B + Top)) List

5. ∀[x:A]. do-apply(p-first(v);x) = do-apply(hd(filter(λf.can-apply(f;x);v));x) ∈ B supposing ↑can-apply(p-first(v);x)

6. x : A
7. ↑can-apply(p-first(v);x)
8. ¬↑can-apply(p-first([u]);x)
⊢ do-apply(p-first([u] @ v);x) = do-apply(hd(filter(λf.can-apply(f;x);[u] @ v));x) ∈ B

Latex:

Latex:
1. A : Type 2. B : Type 3. u : A {}\mrightarrow{} (B + Top) 4. v : (A {}\mrightarrow{} (B + Top)) List 5. \mforall{}[x:A] do-apply(p-first(v);x) = do-apply(hd(filter(\mlambda{}f.can-apply(f;x);v));x) supposing \muparrow{}can-apply(p-first(v);x) 6. x : A 7. (\muparrow{}can-apply(p-first([u]);x)) \mvee{} (\muparrow{}can-apply(p-first(v);x)) 8. \mneg{}\muparrow{}can-apply(p-first([u]);x) \mvdash{} do-apply(p-first([u] @ v);x) = do-apply(hd(filter(\mlambda{}f.can-apply(f;x);[u] @ v));x) By Latex: (D (-2) THEN Auto) Home Index