Proof of Nuprl Lemma : orbit-decomp

Step * 2 1 1 2 1 of Lemma orbit-decomp

1. T : Type
2. ∀x,y:T.  Dec(x = y ∈ T)
3. finite-type(T)
4. f : T ⟶ T
5. Inj(T;T;f)
6. orbits : T List List
7. ∀orbit:T List
     ((orbit ∈ orbits)
     ⇒ (0 < ||orbit||
        ∧ no_repeats(T;orbit)
        ∧ (∀i:ℕ||orbit||. (orbit[i] = (f^i orbit[0]) ∈ T))
        ∧ (∀b:T. ((b ∈ orbit) ⇐⇒ ∃n:ℕ. (b = (f^n orbit[0]) ∈ T)))))
8. ∀a:T. (∃orbit∈orbits. (a ∈ orbit))
9. ∀o1:T List. ((o1 ∈ orbits) ⇒ (∀o2:T List. ((o2 ∈ orbits) ⇒ (o1[0] ∈ o2) ⇒ o1 ⊆ o2)))
10. (∀o1,o2∈orbits.  o1 ⊆ o2 ∨ o2 ⊆ o1 ∨ l_disjoint(T;o1;o2))
11. i : ℕ||orbits||
12. 0 < ||orbits[i]||
13. (last(orbits[i]) ∈ orbits[i])
14. n : ℕ
15. last(orbits[i]) = (f^n orbits[i][0]) ∈ T
16. j : ℕ
17. j < ||orbits[i]||
18. (f last(orbits[i])) = orbits[i][j] ∈ T
19. orbits[i][j] = (f^j orbits[i][0]) ∈ T
20. ¬(j = 0 ∈ ℤ)
21. orbits[i][j] = (f orbits[i][j - 1]) ∈ T
⊢ (f last(orbits[i])) = orbits[i][0] ∈ T
BY

{ ((Assert last(orbits[i]) = orbits[i][j - 1] ∈ T BY Auto)⋅ THEN (Assert no_repeats(T;orbits[i]) BY Auto)) }

1
1. T : Type
2. ∀x,y:T.  Dec(x = y ∈ T)
3. finite-type(T)
4. f : T ⟶ T
5. Inj(T;T;f)
6. orbits : T List List
7. ∀orbit:T List
     ((orbit ∈ orbits)
     ⇒ (0 < ||orbit||
        ∧ no_repeats(T;orbit)
        ∧ (∀i:ℕ||orbit||. (orbit[i] = (f^i orbit[0]) ∈ T))
        ∧ (∀b:T. ((b ∈ orbit) ⇐⇒ ∃n:ℕ. (b = (f^n orbit[0]) ∈ T)))))
8. ∀a:T. (∃orbit∈orbits. (a ∈ orbit))
9. ∀o1:T List. ((o1 ∈ orbits) ⇒ (∀o2:T List. ((o2 ∈ orbits) ⇒ (o1[0] ∈ o2) ⇒ o1 ⊆ o2)))
10. (∀o1,o2∈orbits.  o1 ⊆ o2 ∨ o2 ⊆ o1 ∨ l_disjoint(T;o1;o2))
11. i : ℕ||orbits||
12. 0 < ||orbits[i]||
13. (last(orbits[i]) ∈ orbits[i])
14. n : ℕ
15. last(orbits[i]) = (f^n orbits[i][0]) ∈ T
16. j : ℕ
17. j < ||orbits[i]||
18. (f last(orbits[i])) = orbits[i][j] ∈ T
19. orbits[i][j] = (f^j orbits[i][0]) ∈ T
20. ¬(j = 0 ∈ ℤ)
21. orbits[i][j] = (f orbits[i][j - 1]) ∈ T
22. last(orbits[i]) = orbits[i][j - 1] ∈ T
23. no_repeats(T;orbits[i])
⊢ (f last(orbits[i])) = orbits[i][0] ∈ T

Latex:

Latex:
1. T : Type 2. \mforall{}x,y:T. Dec(x = y) 3. finite-type(T) 4. f : T {}\mrightarrow{} T 5. Inj(T;T;f) 6. orbits : T List List 7. \mforall{}orbit:T List ((orbit \mmember{} orbits) {}\mRightarrow{} (0 < ||orbit|| \mwedge{} no\_repeats(T;orbit) \mwedge{} (\mforall{}i:\mBbbN{}||orbit||. (orbit[i] = (f\^{}i orbit[0]))) \mwedge{} (\mforall{}b:T. ((b \mmember{} orbit) \mLeftarrow{}{}\mRightarrow{} \mexists{}n:\mBbbN{}. (b = (f\^{}n orbit[0])))))) 8. \mforall{}a:T. (\mexists{}orbit\mmember{}orbits. (a \mmember{} orbit)) 9. \mforall{}o1:T List. ((o1 \mmember{} orbits) {}\mRightarrow{} (\mforall{}o2:T List. ((o2 \mmember{} orbits) {}\mRightarrow{} (o1[0] \mmember{} o2) {}\mRightarrow{} o1 \msubseteq{} o2))) 10. (\mforall{}o1,o2\mmember{}orbits. o1 \msubseteq{} o2 \mvee{} o2 \msubseteq{} o1 \mvee{} l\_disjoint(T;o1;o2)) 11. i : \mBbbN{}||orbits|| 12. 0 < ||orbits[i]|| 13. (last(orbits[i]) \mmember{} orbits[i]) 14. n : \mBbbN{} 15. last(orbits[i]) = (f\^{}n orbits[i][0]) 16. j : \mBbbN{} 17. j < ||orbits[i]|| 18. (f last(orbits[i])) = orbits[i][j] 19. orbits[i][j] = (f\^{}j orbits[i][0]) 20. \mneg{}(j = 0) 21. orbits[i][j] = (f orbits[i][j - 1]) \mvdash{} (f last(orbits[i])) = orbits[i][0] By Latex: ((Assert last(orbits[i]) = orbits[i][j - 1] BY Auto)\mcdot{} THEN (Assert no\_repeats(T;orbits[i]) BY Auto)) Home Index