Proof of Nuprl Lemma : bm_T'

Step * 1 1 4 of Lemma bm_T'_wf

1. T : Type
2. Key : Type
3. k : Key
4. v : T
5. key : Key
6. value : T
7. cnt : ℤ
8. k1 : Key
9. v1 : T
10. c1 : ℤ
11. left : binary_map(T;Key)
12. l5 : binary_map(T;Key)
13. k2 : Key
14. v2 : T
15. c2 : ℤ
16. l6 : binary_map(T;Key)
17. m12 : binary_map(T;Key)
18. cnt = (1 + c1 + c2) ∈ ℤ
19. ↑bm_cnt_prop(bm_T(k1;v1;c1;left;l5))
20. ↑bm_cnt_prop(bm_T(k2;v2;c2;l6;m12))
⊢ if c1 <z c2
  then bm_single_L(k;v;bm_E();bm_T(key;value;cnt;bm_T(k1;v1;c1;left;l5);bm_T(k2;v2;c2;l6;m12)))
  else bm_double_L(k;v;bm_E();bm_T(key;value;cnt;bm_T(k1;v1;c1;left;l5);bm_T(k2;v2;c2;l6;m12)))
  fi  ∈ binary-map(T;Key)
BY

{ (AutoSplit THEN Auto THEN MemTypeCD THEN Reduce 0 THEN Auto THEN BLemma `bm_cnt_prop_T` THEN Reduce 0 THEN Auto) }

Latex:

1. T : Type 2. Key : Type 3. k : Key 4. v : T 5. key : Key 6. value : T 7. cnt : \mBbbZ{} 8. k1 : Key 9. v1 : T 10. c1 : \mBbbZ{} 11. left : binary\_map(T;Key) 12. l5 : binary\_map(T;Key) 13. k2 : Key 14. v2 : T 15. c2 : \mBbbZ{} 16. l6 : binary\_map(T;Key) 17. m12 : binary\_map(T;Key) 18. cnt = (1 + c1 + c2) 19. \muparrow{}bm\_cnt\_prop(bm\_T(k1;v1;c1;left;l5)) 20. \muparrow{}bm\_cnt\_prop(bm\_T(k2;v2;c2;l6;m12)) \mvdash{} if c1 <z c2 then bm\_single\_L(k;v;bm\_E();bm\_T(key;value;cnt;bm\_T(k1;v1;c1;left;l5);bm\_T(k2;v2;c2;l6;m12))) else bm\_double\_L(k;v;bm\_E();bm\_T(key;value;cnt;bm\_T(k1;v1;c1;left;l5);bm\_T(k2;v2;c2;l6;m12))) fi \mmember{} binary-map(T;Key) By (AutoSplit THEN Auto THEN MemTypeCD THEN Reduce 0 THEN Auto THEN BLemma `bm\_cnt\_prop\_T` THEN Reduce 0 THEN Auto) Home Index