Proof of Nuprl Lemma : aa_bst_member

Step * 1 of Lemma aa_bst_member_property2r

1. ltr : aa_ltree(

)@i
2. rtr : aa_ltree(

)@i
3. val :

@i
4. i :

@i
5. aa_binary_search_tree(ltr)@i
6. aa_binary_search_tree(rtr)@i
7. case aa_max_ltree(ltr) of inl(maxl) => maxl < val | inr(ul) => 0

0@i
8. case aa_min_ltree(rtr) of inl(minr) => val < minr | inr(ur) => 0

0@i
9. aa_bst_member_prop(i;rtr)@i

i > val
BY
{ GenHypAtAddr 8 [1] THEN DVar `v' THEN Reduce 9 }

1
1. ltr : aa_ltree(

)@i
2. rtr : aa_ltree(

)@i
3. val :

@i
4. i :

@i
5. aa_binary_search_tree(ltr)@i
6. aa_binary_search_tree(rtr)@i
7. case aa_max_ltree(ltr) of inl(maxl) => maxl < val | inr(ul) => 0

0@i
8. x :

9. aa_min_ltree(rtr) = (inl x )
10. case inl x of inl(minr) => val < minr | inr(ur) => 0

0@i
11. aa_bst_member_prop(i;rtr)@i

i > val

2
1. ltr : aa_ltree(

)@i
2. rtr : aa_ltree(

)@i
3. val :

@i
4. i :

@i
5. aa_binary_search_tree(ltr)@i
6. aa_binary_search_tree(rtr)@i
7. case aa_max_ltree(ltr) of inl(maxl) => maxl < val | inr(ul) => 0

0@i
8. y : Unit
9. aa_min_ltree(rtr) = (inr y )
10. case inr y of inl(minr) => val < minr | inr(ur) => 0

0@i
11. aa_bst_member_prop(i;rtr)@i

i > val

1. ltr : aa\_ltree(\mBbbZ{})@i 2. rtr : aa\_ltree(\mBbbZ{})@i 3. val : \mBbbZ{}@i 4. i : \mBbbZ{}@i 5. aa\_binary\_search\_tree(ltr)@i 6. aa\_binary\_search\_tree(rtr)@i 7. case aa\_max\_ltree(ltr) of inl(maxl) => maxl < val | inr(ul) => 0 \mleq{} 0@i 8. case aa\_min\_ltree(rtr) of inl(minr) => val < minr | inr(ur) => 0 \mleq{} 0@i 9. aa\_bst\_member\_prop(i;rtr)@i \mvdash{} i > val By GenHypAtAddr 8 [1] THEN DVar `v' THEN Reduce 9 Home Index