Proof of Nuprl Lemma : aa_kleene_fan_contra_partial

Step * 1 1 1 1 of Lemma aa_kleene_fan_contra_partial

1. f :

bar(

)@i
2.

b:

bar(

).

a:

. ((f a) = b)@i
3. T :

@i
4.

indx,input:

.
((

nsteps:

. ((

(T indx input nsteps))

(f indx input)

))

((f indx input)

(

nsteps:

. (

(T indx input nsteps))))

(

n1,n2:

. (((n1

n2)

(

(T indx input n1)))

(

(T indx input n2)))))@i
5. l1 :

List@i
6. l2 :

List@i
7.

y:

((y < ||l1 @ l2||)

((((

(T y y ||l1 @ l2||))

f y y = ff)

l1 @ l2[y] = tt)

(((

(T y y ||l1 @ l2||))

f y y = tt)

l1 @ l2[y] = ff)))@i
8. ||l1||

||l1 @ l2||
9. y :

@i
10. y < ||l1||@i
11. (((

(T y y ||l1 @ l2||))

f y y = ff)

l1 @ l2[y] = tt)

(((

(T y y ||l1 @ l2||))

f y y = tt)

l1 @ l2[y] = ff)
12. (

(T y y ||l1||))

(

(T y y ||l1 @ l2||))

(((

(T y y ||l1||))

f y y = ff)

l1[y] = tt)

(((

(T y y ||l1||))

f y y = tt)

l1[y] = ff)
BY
{ (RWO "select_append_front" (-2)
THEN Auto
THEN Try (Complete (Termination THEN Auto

))
THEN (BackThruSomeHyp THEN MaAuto)

)

}

1. f : \mBbbN{} {}\mrightarrow{} \mBbbN{} {}\mrightarrow{} bar(\mBbbB{})@i 2. \mforall{}b:\mBbbN{} {}\mrightarrow{} bar(\mBbbB{}). \mexists{}a:\mBbbN{}. ((f a) = b)@i 3. T : \mBbbN{} {}\mrightarrow{} \mBbbN{} {}\mrightarrow{} \mBbbN{} {}\mrightarrow{} \mBbbB{}@i 4. \mforall{}indx,input:\mBbbN{}. ((\mforall{}nsteps:\mBbbN{}. ((\muparrow{}(T indx input nsteps)) {}\mRightarrow{} (f indx input)\mdownarrow{})) \mwedge{} ((f indx input)\mdownarrow{} {}\mRightarrow{} (\mexists{}nsteps:\mBbbN{}. (\muparrow{}(T indx input nsteps)))) \mwedge{} (\mforall{}n1,n2:\mBbbN{}. (((n1 \mleq{} n2) \mwedge{} (\muparrow{}(T indx input n1))) {}\mRightarrow{} (\muparrow{}(T indx input n2)))))@i 5. l1 : \mBbbB{} List@i 6. l2 : \mBbbB{} List@i 7. \mforall{}y:\mBbbN{} ((y < ||l1 @ l2||) {}\mRightarrow{} ((((\muparrow{}(T y y ||l1 @ l2||)) \mwedge{} f y y = ff) {}\mRightarrow{} l1 @ l2[y] = tt) \mwedge{} (((\muparrow{}(T y y ||l1 @ l2||)) \mwedge{} f y y = tt) {}\mRightarrow{} l1 @ l2[y] = ff)))@i 8. ||l1|| \mleq{} ||l1 @ l2|| 9. y : \mBbbN{}@i 10. y < ||l1||@i 11. (((\muparrow{}(T y y ||l1 @ l2||)) \mwedge{} f y y = ff) {}\mRightarrow{} l1 @ l2[y] = tt) \mwedge{} (((\muparrow{}(T y y ||l1 @ l2||)) \mwedge{} f y y = tt) {}\mRightarrow{} l1 @ l2[y] = ff) 12. (\muparrow{}(T y y ||l1||)) {}\mRightarrow{} (\muparrow{}(T y y ||l1 @ l2||)) \mvdash{} (((\muparrow{}(T y y ||l1||)) \mwedge{} f y y = ff) {}\mRightarrow{} l1[y] = tt) \mwedge{} (((\muparrow{}(T y y ||l1||)) \mwedge{} f y y = tt) {}\mRightarrow{} l1[y] = ff) By (RWO "select\_append\_front" (-2) THEN Auto THEN Try (Complete (Termination THEN Auto\mcdot{})) THEN (BackThruSomeHyp THEN MaAuto)\mcdot{})\mcdot{} Home Index