Proof of Nuprl Lemma : fpf-normalize-dom

Step * 1 1 of Lemma fpf-normalize-dom

.....equality.....
1. A : Type
2. eq : EqDecider(A)
3. B : A ─→ Type
4. d : A List
5. g1 : x:{x:A| (x ∈ d)} ─→ B[x]
6. x : A
7. G : Top@i

⊢ fst(reduce(λx,f. <[x / filter(λa.(¬_b((eqof(eq) x a) ∨_bff));fst(f))], λa.<[x], λx@0.(G x)>(a)?f(a)>;<[], λx.⋅>;d)) ~ re\000Cduce(λx,l. [x / filter(λa.(¬_b((eqof(eq) x a) ∨_bff));l)];[];d)

BY
{ ((Thin (-3)) THEN (ListInd (-3)) THEN Reduce 0 THEN EqCD THEN EqCD THEN Try (Trivial)) }

Latex:

.....equality..... 1. A : Type 2. eq : EqDecider(A) 3. B : A {}\mrightarrow{} Type 4. d : A List 5. g1 : x:\{x:A| (x \mmember{} d)\} {}\mrightarrow{} B[x] 6. x : A 7. G : Top@i \mvdash{} fst(reduce(\mlambda{}x,f. <[x / filter(\mlambda{}a.(\mneg{}\msubb{}((eqof(eq) x a) \mvee{}\msubb{}ff));fst(f))] , \mlambda{}a.<[x], \mlambda{}x@0.(G x)>(a)?f(a) ><[], \mlambda{}x.\mcdot{}>d)) \msim{} reduce(\mlambda{}x,l. [x / filter(\mlambda{}a.(\mneg{}\msubb{}((eqof(eq) x a) \mvee{}\msubb{}ff));l)];[];d\000C) By ((Thin (-3)) THEN (ListInd (-3)) THEN Reduce 0 THEN EqCD THEN EqCD THEN Try (Trivial)) Home Index