Proof of Nuprl Lemma : apply_alist

Step * 2 of Lemma apply_alist_wf

1. T : Type
2. eq : EqDecider(T)
3. x : T
4. V : Type
5. u1 : T
6. u2 : V
7. v : (T × V) List
8. apply_alist(eq;v;x) ∈ {v@0:V| (<x, v@0> ∈ v)} supposing (x ∈ map(λa.(fst(a));v))
9. (x ∈ map(λa.(fst(a));v))
10. y : Unit
11. eq u1 x = inr y
12. uiff(u1 = x ∈ T;↑(inr y ))
⊢ apply_alist(eq;v;x) ∈ {v@0:V| (<x, v@0> ∈ [<u1, u2> / v])}
BY
{ (ThinTrivial THEN Auto) }

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. x : T 4. V : Type 5. u1 : T 6. u2 : V 7. v : (T \mtimes{} V) List 8. apply\_alist(eq;v;x) \mmember{} \{v@0:V| (<x, v@0> \mmember{} v)\} supposing (x \mmember{} map(\mlambda{}a.(fst(a));v)) 9. (x \mmember{} map(\mlambda{}a.(fst(a));v)) 10. y : Unit 11. eq u1 x = inr y 12. uiff(u1 = x;\muparrow{}(inr y )) \mvdash{} apply\_alist(eq;v;x) \mmember{} \{v@0:V| (<x, v@0> \mmember{} [<u1, u2> / v])\} By Latex: (ThinTrivial THEN Auto) Home Index