Proof of Nuprl Lemma : mFOL-bound-rename

Step * 2 1 of Lemma mFOL-bound-rename

1. knd : Atom
2. left : mFOL()
3. right : mFOL()
4. ∀L:ℤ List
(∃fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(left) ∈ (ℤ List))

                    ∧ (mFOL-abstract(fmla') = mFOL-abstract(left) ∈ AbstractFOFormula(mFOL-freevars(left)))

∧ l_disjoint(ℤ;L;mFOL-boundvars(fmla')))])
5. ∀L:ℤ List
(∃fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(right) ∈ (ℤ List))

                    ∧ (mFOL-abstract(fmla') = mFOL-abstract(right) ∈ AbstractFOFormula(mFOL-freevars(right)))

∧ l_disjoint(ℤ;L;mFOL-boundvars(fmla')))])
6. L : ℤ List
7. l : mFOL()
8. mFOL-freevars(l) = mFOL-freevars(left) ∈ (ℤ List)
9. mFOL-abstract(l) = mFOL-abstract(left) ∈ AbstractFOFormula(mFOL-freevars(left))
10. l_disjoint(ℤ;L;mFOL-boundvars(l))
11. r : mFOL()
12. mFOL-freevars(r) = mFOL-freevars(right) ∈ (ℤ List)
13. mFOL-abstract(r) = mFOL-abstract(right) ∈ AbstractFOFormula(mFOL-freevars(right))
14. l_disjoint(ℤ;L;mFOL-boundvars(r))
15. mFOL-freevars(mFOconnect(knd;l;r)) = mFOL-freevars(mFOconnect(knd;left;right)) ∈ (ℤ List)
⊢ mFOL-abstract(mFOconnect(knd;l;r))
= mFOL-abstract(mFOconnect(knd;left;right))
∈ AbstractFOFormula(val-union(IntDeq;mFOL-freevars(left);mFOL-freevars(right)))
BY
{ (((Unfold `mFOL-abstract` 0 THEN Reduce 0) THEN Fold `mFOL-abstract` 0) THEN Auto) }

1
1. knd : Atom
2. left : mFOL()
3. right : mFOL()
4. ∀L:ℤ List
(∃fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(left) ∈ (ℤ List))

                    ∧ (mFOL-abstract(fmla') = mFOL-abstract(left) ∈ AbstractFOFormula(mFOL-freevars(left)))

∧ l_disjoint(ℤ;L;mFOL-boundvars(fmla')))])
5. ∀L:ℤ List
(∃fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(right) ∈ (ℤ List))

                    ∧ (mFOL-abstract(fmla') = mFOL-abstract(right) ∈ AbstractFOFormula(mFOL-freevars(right)))

∧ l_disjoint(ℤ;L;mFOL-boundvars(fmla')))])
6. L : ℤ List
7. l : mFOL()
8. mFOL-freevars(l) = mFOL-freevars(left) ∈ (ℤ List)
9. mFOL-abstract(l) = mFOL-abstract(left) ∈ AbstractFOFormula(mFOL-freevars(left))
10. l_disjoint(ℤ;L;mFOL-boundvars(l))
11. r : mFOL()
12. mFOL-freevars(r) = mFOL-freevars(right) ∈ (ℤ List)
13. mFOL-abstract(r) = mFOL-abstract(right) ∈ AbstractFOFormula(mFOL-freevars(right))
14. l_disjoint(ℤ;L;mFOL-boundvars(r))
15. mFOL-freevars(mFOconnect(knd;l;r)) = mFOL-freevars(mFOconnect(knd;left;right)) ∈ (ℤ List)
⊢ (FOConnective(knd) mFOL-abstract(l) mFOL-abstract(r))
= (FOConnective(knd) mFOL-abstract(left) mFOL-abstract(right))
∈ AbstractFOFormula(val-union(IntDeq;mFOL-freevars(left);mFOL-freevars(right)))

Latex:

Latex:
1. knd : Atom 2. left : mFOL() 3. right : mFOL() 4. \mforall{}L:\mBbbZ{} List (\mexists{}fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(left)) \mwedge{} (mFOL-abstract(fmla') = mFOL-abstract(left)) \mwedge{} l\_disjoint(\mBbbZ{};L;mFOL-boundvars(fmla')))]) 5. \mforall{}L:\mBbbZ{} List (\mexists{}fmla':mFOL() [((mFOL-freevars(fmla') = mFOL-freevars(right)) \mwedge{} (mFOL-abstract(fmla') = mFOL-abstract(right)) \mwedge{} l\_disjoint(\mBbbZ{};L;mFOL-boundvars(fmla')))]) 6. L : \mBbbZ{} List 7. l : mFOL() 8. mFOL-freevars(l) = mFOL-freevars(left) 9. mFOL-abstract(l) = mFOL-abstract(left) 10. l\_disjoint(\mBbbZ{};L;mFOL-boundvars(l)) 11. r : mFOL() 12. mFOL-freevars(r) = mFOL-freevars(right) 13. mFOL-abstract(r) = mFOL-abstract(right) 14. l\_disjoint(\mBbbZ{};L;mFOL-boundvars(r)) 15. mFOL-freevars(mFOconnect(knd;l;r)) = mFOL-freevars(mFOconnect(knd;left;right)) \mvdash{} mFOL-abstract(mFOconnect(knd;l;r)) = mFOL-abstract(mFOconnect(knd;left;right)) By Latex: (((Unfold `mFOL-abstract` 0 THEN Reduce 0) THEN Fold `mFOL-abstract` 0) THEN Auto) Home Index