Proof of Nuprl Lemma : es-prior-interface-vals-property

Step * 1 1 2 1 2 of Lemma es-prior-interface-vals-property

.....falsecase.....
1. Info : Type@i'
2. es : EO+(Info)@i'
3. A : Type@i'
4. X : EClass(A)@i'
5. e : E@i
6. ∀e1:E. ((e1 < e) ⇒ (X(<e1) = if e1 ∈_b prior(X) then X(<prior(X)(e1)) @ [X(prior(X)(e1))] else [] fi ∈ (A List)))
7. ↑e ∈_b prior(X)
8. ¬↑first(e)
9. ¬↑pred(e) ∈_b X
⊢ (X(<pred(e)) @ map(λe.X(e);[])) = (X(<prior(X)(e)) @ [X(prior(X)(e))]) ∈ (A List)
BY
{ (Reduce 0 THEN (RWO "append-nil" 0 THENA Auto)) }

1
1. Info : Type@i'
2. es : EO+(Info)@i'
3. A : Type@i'
4. X : EClass(A)@i'
5. e : E@i
6. ∀e1:E. ((e1 < e) ⇒ (X(<e1) = if e1 ∈_b prior(X) then X(<prior(X)(e1)) @ [X(prior(X)(e1))] else [] fi ∈ (A List)))
7. ↑e ∈_b prior(X)
8. ¬↑first(e)
9. ¬↑pred(e) ∈_b X
⊢ X(<pred(e)) = (X(<prior(X)(e)) @ [X(prior(X)(e))]) ∈ (A List)

Latex:

Latex:
.....falsecase..... 1. Info : Type@i' 2. es : EO+(Info)@i' 3. A : Type@i' 4. X : EClass(A)@i' 5. e : E@i 6. \mforall{}e1:E ((e1 < e) {}\mRightarrow{} (X(<e1) = if e1 \mmember{}\msubb{} prior(X) then X(<prior(X)(e1)) @ [X(prior(X)(e1))] else [] fi )) 7. \muparrow{}e \mmember{}\msubb{} prior(X) 8. \mneg{}\muparrow{}first(e) 9. \mneg{}\muparrow{}pred(e) \mmember{}\msubb{} X \mvdash{} (X(<pred(e)) @ map(\mlambda{}e.X(e);[])) = (X(<prior(X)(e)) @ [X(prior(X)(e))]) By Latex: (Reduce 0 THEN (RWO "append-nil" 0 THENA Auto)) Home Index