Proof of Nuprl Lemma : cycle-decomp

Step * 3 1 of Lemma cycle-decomp

.....assertion.....
1. n : ℕ
2. f : {f:ℕn ⟶ ℕn| Inj(ℕn;ℕn;f)}
3. orbits : ℕn List List
4. ∀orbit:ℕn List
     ((orbit ∈ orbits)
     ⇒ (0 < ||orbit||
        ∧ no_repeats(ℕn;orbit)

        ∧ (∀i:ℕ||orbit||. ((f orbit[i]) = if (i =_z ||orbit|| - 1) then orbit[0] else orbit[i + 1] fi  ∈ ℕn))

        ∧ (∀x∈orbit.∀n@0:ℕ. (f^n@0 x ∈ orbit))))
5. ∀a:ℕn. (∃orbit∈orbits. (a ∈ orbit))
6. (∀o1,o2∈orbits.  l_disjoint(ℕn;o1;o2))
7. no_repeats(ℕn List;orbits)
8. ∀c1:ℕn List. ((c1 ∈ orbits) ⇒ (∀c2∈orbits.(c1 = c2 ∈ (ℕn List)) ∨ l_disjoint(ℕn;c1;c2)))
9. ∀c:ℕn List. ((c ∈ orbits) ⇒ (0 < ||c|| ∧ no_repeats(ℕn;c)))
⊢ ∀a:ℕn. (∃orbit∈orbits. (a ∈ orbit) ∧ ((f a) = (cycle(orbit) a) ∈ ℕn))
BY
{ (RepeatFor 3 (Thin (-1)) THEN ParallelOp (-2) THEN RepeatFor 2 (ParallelLast) THEN Auto)⋅ }

1
1. n : ℕ
2. f : {f:ℕn ⟶ ℕn| Inj(ℕn;ℕn;f)}
3. orbits : ℕn List List
4. ∀orbit:ℕn List
     ((orbit ∈ orbits)
     ⇒ (0 < ||orbit||
        ∧ no_repeats(ℕn;orbit)

        ∧ (∀i:ℕ||orbit||. ((f orbit[i]) = if (i =_z ||orbit|| - 1) then orbit[0] else orbit[i + 1] fi  ∈ ℕn))

∧ (∀x∈orbit.∀n@0:ℕ. (f^n@0 x ∈ orbit))))
5. ∀a:ℕn. (∃orbit∈orbits. (a ∈ orbit))
6. (∀o1,o2∈orbits. l_disjoint(ℕn;o1;o2))
7. a : ℕn
8. i : ℕ||orbits||
9. (a ∈ orbits[i])
10. (a ∈ orbits[i])
⊢ (f a) = (cycle(orbits[i]) a) ∈ ℕn

Latex:

Latex:
.....assertion..... 1. n : \mBbbN{} 2. f : \{f:\mBbbN{}n {}\mrightarrow{} \mBbbN{}n| Inj(\mBbbN{}n;\mBbbN{}n;f)\} 3. orbits : \mBbbN{}n List List 4. \mforall{}orbit:\mBbbN{}n List ((orbit \mmember{} orbits) {}\mRightarrow{} (0 < ||orbit|| \mwedge{} no\_repeats(\mBbbN{}n;orbit) \mwedge{} (\mforall{}i:\mBbbN{}||orbit|| ((f orbit[i]) = if (i =\msubz{} ||orbit|| - 1) then orbit[0] else orbit[i + 1] fi )) \mwedge{} (\mforall{}x\mmember{}orbit.\mforall{}n@0:\mBbbN{}. (f\^{}n@0 x \mmember{} orbit)))) 5. \mforall{}a:\mBbbN{}n. (\mexists{}orbit\mmember{}orbits. (a \mmember{} orbit)) 6. (\mforall{}o1,o2\mmember{}orbits. l\_disjoint(\mBbbN{}n;o1;o2)) 7. no\_repeats(\mBbbN{}n List;orbits) 8. \mforall{}c1:\mBbbN{}n List. ((c1 \mmember{} orbits) {}\mRightarrow{} (\mforall{}c2\mmember{}orbits.(c1 = c2) \mvee{} l\_disjoint(\mBbbN{}n;c1;c2))) 9. \mforall{}c:\mBbbN{}n List. ((c \mmember{} orbits) {}\mRightarrow{} (0 < ||c|| \mwedge{} no\_repeats(\mBbbN{}n;c))) \mvdash{} \mforall{}a:\mBbbN{}n. (\mexists{}orbit\mmember{}orbits. (a \mmember{} orbit) \mwedge{} ((f a) = (cycle(orbit) a))) By Latex: (RepeatFor 3 (Thin (-1)) THEN ParallelOp (-2) THEN RepeatFor 2 (ParallelLast) THEN Auto)\mcdot{} Home Index