Proof of Nuprl Lemma : Cn-comb

Step * 2 2 1 1 of Lemma Cn-comb_wf

.....subterm..... T:t
2:n
1. T : Type
2. n : ℤ
3. 0 < n
4. ∀m:ℕ. ∀A:ℕm ⟶ Type.
(n - 1 < m
⇒

 (primrec(n - 1;λf.f;λi,F,f,x. (F (C-comb() f x))) ∈ funtype(m;A;T) ⟶ funtype(m;λk.if k <z n - 1 then A (k + 1)

                                                                                   if (k =_z n - 1) then A 0

                                                                                   else A k

                                                                                   fi ;T)))

5. m : ℕ
6. A : ℕm ⟶ Type
7. n < m
8. 1 ≤ n
9. f : funtype(m;A;T)
10. (λx.(primrec(n - 1;λf.f;λi,F,f,x. (F (C-comb() f x))) (C-comb() f x)))
= (λx.(primrec(n - 1;λf.f;λi,F,f,x. (F (C-comb() f x))) (C-comb() f x)))
∈ ((A 1) ⟶ funtype(m - 1;λk.if k <z n - 1 then A (k + 2)
                             if (k =_z n - 1) then A 0
                             else A (k + 1)
                             fi ;T))
11. 1 ≤ m
12. A 1
⊢ funtype(m - 1;λk.if k <z n - 1 then A (k + 2)
                   if (k =_z n - 1) then A 0
                   else A (k + 1)
                   fi ;T)
= primrec(m - 1;T;λi,t. (if m - 1 - i <z n then A ((m - 1 - i) + 1)
                       if (m - 1 - i =_z n) then A 0
                       else A (m - 1 - i)
                       fi  ⟶ t))
∈ Type
BY
{ (Unfold `funtype` 0 THEN Reduce 0 THEN RepeatFor 3 ((EqCD THEN Try (Complete (Auto)))))⋅ }

Latex:

Latex:
.....subterm..... T:t 2:n 1. T : Type 2. n : \mBbbZ{} 3. 0 < n 4. \mforall{}m:\mBbbN{}. \mforall{}A:\mBbbN{}m {}\mrightarrow{} Type. (n - 1 < m {}\mRightarrow{} (primrec(n - 1;\mlambda{}f.f;\mlambda{}i,F,f,x. (F (C-comb() f x))) \mmember{} funtype(m;A;T) {}\mrightarrow{} funtype(m;\mlambda{}k.if k <z n\000C - 1 then A (k + 1) if (k =\msubz{} n - 1) then A 0 else A k fi ;T))) 5. m : \mBbbN{} 6. A : \mBbbN{}m {}\mrightarrow{} Type 7. n < m 8. 1 \mleq{} n 9. f : funtype(m;A;T) 10. (\mlambda{}x.(primrec(n - 1;\mlambda{}f.f;\mlambda{}i,F,f,x. (F (C-comb() f x))) (C-comb() f x))) = (\mlambda{}x.(primrec(n - 1;\mlambda{}f.f;\mlambda{}i,F,f,x. (F (C-comb() f x))) (C-comb() f x))) 11. 1 \mleq{} m 12. A 1 \mvdash{} funtype(m - 1;\mlambda{}k.if k <z n - 1 then A (k + 2) if (k =\msubz{} n - 1) then A 0 else A (k + 1) fi ;T) = primrec(m - 1;T;\mlambda{}i,t. (if m - 1 - i <z n then A ((m - 1 - i) + 1) if (m - 1 - i =\msubz{} n) then A 0 else A (m - 1 - i) fi {}\mrightarrow{} t)) By Latex: (Unfold `funtype` 0 THEN Reduce 0 THEN RepeatFor 3 ((EqCD THEN Try (Complete (Auto)))))\mcdot{} Home Index