Proof of Nuprl Lemma : p-fun-exp-add-sq

Step * 2 2 1 2 1 of Lemma p-fun-exp-add-sq

.....truecase.....
1. A : Type
2. f : A ⟶ (A + Top)
3. x : A
4. m : ℤ
5. 0 < m
6. ∀[n:ℕ]. f^n + (m - 1) x ~ f^n do-apply(f^m - 1;x) supposing ↑can-apply(f^m - 1;x)
7. n : ℕ
8. ↑can-apply(f^m;x)
9. ¬(n = 0 ∈ ℤ)
10. 1 ≤ (n + m)
11. 1 ≤ n
12. 1 ≤ m
13. ↑can-apply(f^m - 1;x)
⊢ f o f^n do-apply(f^m - 1;x) ~ f o f^n - 1 outl(f do-apply(f^m - 1;x))
BY
{ xxx(((GenConclAtAddr [1; 2]) THENA Auto) THEN (RenameVar `x1' (-2)))xxx }

1
1. A : Type
2. f : A ⟶ (A + Top)
3. x : A
4. m : ℤ
5. 0 < m
6. ∀[n:ℕ]. f^n + (m - 1) x ~ f^n do-apply(f^m - 1;x) supposing ↑can-apply(f^m - 1;x)
7. n : ℕ
8. ↑can-apply(f^m;x)
9. ¬(n = 0 ∈ ℤ)
10. 1 ≤ (n + m)
11. 1 ≤ n
12. 1 ≤ m
13. ↑can-apply(f^m - 1;x)
14. x1 : A
15. do-apply(f^m - 1;x) = x1 ∈ A
⊢ f o f^n x1 ~ f o f^n - 1 outl(f x1)

Latex:

Latex:
.....truecase..... 1. A : Type 2. f : A {}\mrightarrow{} (A + Top) 3. x : A 4. m : \mBbbZ{} 5. 0 < m 6. \mforall{}[n:\mBbbN{}]. f\^{}n + (m - 1) x \msim{} f\^{}n do-apply(f\^{}m - 1;x) supposing \muparrow{}can-apply(f\^{}m - 1;x) 7. n : \mBbbN{} 8. \muparrow{}can-apply(f\^{}m;x) 9. \mneg{}(n = 0) 10. 1 \mleq{} (n + m) 11. 1 \mleq{} n 12. 1 \mleq{} m 13. \muparrow{}can-apply(f\^{}m - 1;x) \mvdash{} f o f\^{}n do-apply(f\^{}m - 1;x) \msim{} f o f\^{}n - 1 outl(f do-apply(f\^{}m - 1;x)) By Latex: xxx(((GenConclAtAddr [1; 2]) THENA Auto) THEN (RenameVar `x1' (-2)))xxx Home Index