Proof of Nuprl Lemma : mk_lambdas-fun-unroll-first

Step * of Lemma mk_lambdas-fun-unroll-first

∀[F,K:Top]. ∀[m:ℕ⁺]. ∀[n:ℕm].
  (mk_lambdas-fun(F;λf.mk_applies(f;K;n);n;m) ~ λx.mk_lambdas-fun(F;λf.(mk_applies(f;K;n) x);n;m - 1))
BY
{ ((UnivCD THENA Auto)
   THEN D (-2)
   THEN RepeatFor 2 ((D (-1) THENA Auto))

   THEN (Assert ⌜∃k:ℕ. (m = (n + k) ∈ ℤ)⌝⋅ THENA (InstConcl [⌜m - n⌝]⋅ THEN Auto'))

   THEN D (-1)
   THEN HypSubst' (-1) 0
   THEN (Assert ⌜0 < k⌝⋅ THENA Auto')
   THEN ThinVar `m'
   THEN MoveToConcl (-4)
   THEN MoveToConcl (-3)
   THEN NatInd (-2)
   THEN UnivCD
   THEN Try (Complete (Auto))) }

1
1. F : Top
2. k : ℤ
3. 0 < k
4. 0 < k - 1
⇒ (∀K:Top. ∀n:ℤ.
      ((0 ≤ n)
      ⇒ (mk_lambdas-fun(F;λf.mk_applies(f;K;n);n;n + (k - 1)) ~ λx.mk_lambdas-fun(F;λf.(mk_applies(f;K;n) x);n;(n

                                                                    + (k - 1)) - 1))))

5. 0 < k
6. K : Top
7. n : ℤ
8. 0 ≤ n

⊢ mk_lambdas-fun(F;λf.mk_applies(f;K;n);n;n + k) ~ λx.mk_lambdas-fun(F;λf.(mk_applies(f;K;n) x);n;(n + k) - 1)

Latex:

Latex:
\mforall{}[F,K:Top]. \mforall{}[m:\mBbbN{}\msupplus{}]. \mforall{}[n:\mBbbN{}m]. (mk\_lambdas-fun(F;\mlambda{}f.mk\_applies(f;K;n);n;m) \msim{} \mlambda{}x.mk\_lambdas-fun(F;\mlambda{}f.(mk\_applies(f;K;n) x);n;m - 1)) By Latex: ((UnivCD THENA Auto) THEN D (-2) THEN RepeatFor 2 ((D (-1) THENA Auto)) THEN (Assert \mkleeneopen{}\mexists{}k:\mBbbN{}. (m = (n + k))\mkleeneclose{}\mcdot{} THENA (InstConcl [\mkleeneopen{}m - n\mkleeneclose{}]\mcdot{} THEN Auto')) THEN D (-1) THEN HypSubst' (-1) 0 THEN (Assert \mkleeneopen{}0 < k\mkleeneclose{}\mcdot{} THENA Auto') THEN ThinVar `m' THEN MoveToConcl (-4) THEN MoveToConcl (-3) THEN NatInd (-2) THEN UnivCD THEN Try (Complete (Auto))) Home Index