FDL - Step of Proof: fast-fib

Step of Proof: fast-fib

11,40

Inference at * 1 2 1 2 1 1 2 1
Iof proof for Lemma fast-fib:

1. n :

2. 0 < n
3.

a, b:

.
3. {m:

|
3. {

.
3. {(a = fib(k))

((k

(b = 0))

((0 < k)

(b = fib(k - 1)))

(m = fib((n - 1)+k))}
4. a :

5. b :

b1:

.
6. {m:

|
6. {

.
6. {(a+b = fib(k))
6. {

((k

(b1 = 0))
6. {

((0 < k)

(b1 = fib(k - 1)))
6. {

(m = fib((n - 1)+k))}
7. m :

.
8. (a+b = fib(k))

((k

(a = 0))

((0 < k)

(a = fib(k - 1)))

(m = fib((n - 1)+k))
9. k :

10. a = fib(k)
11. (k

(b = 0)
12. (0 < k)

(b = fib(k - 1))
13.

(k = 0)
14.

(k+1 = 0)
15.

(k+1 = 1)

a+b = fib((k+1) - 1)+fib((k+1) - 2)

by (EqCD)

CollapseTHEN (Auto

)

C1: .....subterm..... T:t2:n

C1:

b = fib((k+1) - 2)

Definitions x:AB(x), Void, a < b, n - m, #$n, t T, x:A. B(x), , {x:A| B(x)} , A B, A, False, P Q, s = t, , n+m, fib(n)

Lemmas fib wf, nat wf, le wf

Definitions	x:AB(x), Void, a < b, n - m, #$n, t T, x:A. B(x), , {x:A\| B(x)} , A B, A, False, P Q, s = t, , n+m, fib(n)
Lemmas	fib wf, nat wf, le wf