Proof of Nuprl Lemma : reduce-map

Step * of Lemma reduce-map

∀[f,g,as,x:Top].  (reduce(λa,b. g[a;b];x;map(f;as)) ~ reduce(λa,b. g[f a;b];x;as))
BY
{ (RepUR ``map reduce`` 0
   THEN MutualFixpointInduction1 `as'
   THEN Reduce 0
   THEN RW (SubC (TryC RecUnfoldTopAbC)) 0
   THEN RW (SubC (SubC (TryC RecUnfoldTopAbC))) 0
   THEN RW (SubC (TryC (LiftC true))) 0
   THEN UseCbvSqle
   THEN RW (SubC (TryC (LiftC true))) 0
   THEN HVimplies2 0 [1]
   THEN Try (((RWO "-1" 0 THENA Auto)
              THEN RW (SubC (LiftC true)) 0
              THEN HVimplies2 0 [1]
              THEN RW (SubC (TryC RecUnfoldTopAbC)) 0
              THEN Auto))
   THEN Repeat ((SqLeCD THEN Try (BackThruSomeHyp)))) }

Latex:

Latex:
\mforall{}[f,g,as,x:Top]. (reduce(\mlambda{}a,b. g[a;b];x;map(f;as)) \msim{} reduce(\mlambda{}a,b. g[f a;b];x;as)) By Latex: (RepUR ``map reduce`` 0 THEN MutualFixpointInduction1 `as' THEN Reduce 0 THEN RW (SubC (TryC RecUnfoldTopAbC)) 0 THEN RW (SubC (SubC (TryC RecUnfoldTopAbC))) 0 THEN RW (SubC (TryC (LiftC true))) 0 THEN UseCbvSqle THEN RW (SubC (TryC (LiftC true))) 0 THEN HVimplies2 0 [1] THEN Try (((RWO "-1" 0 THENA Auto) THEN RW (SubC (LiftC true)) 0 THEN HVimplies2 0 [1] THEN RW (SubC (TryC RecUnfoldTopAbC)) 0 THEN Auto)) THEN Repeat ((SqLeCD THEN Try (BackThruSomeHyp)))) Home Index