Proof of Nuprl Lemma : least-equiv-is-equiv-1

Step * 2 1 1 1 1 2 of Lemma least-equiv-is-equiv-1

.....set predicate.....
1. A : Type
2. R : A ⟶ A ⟶ ℙ
3. a : A
4. b : A
5. L : (a:A × b:A × ((R a b) ∨ (R b a))) List
6. rel_path(A;L;a;b) ∧ 0 < ||L||
⊢ rel_path(A;rev(map(λt.let a,b,r = t in

                        <b, a, case r of inl(x) => inr x  | inr(x) => inl x>;L));b;a)

∧ 0 < ||rev(map(λt.let a,b,r = t in
<b, a, case r of inl(x) => inr x | inr(x) => inl x>;L))||
BY
{ D 0 }

1
1. A : Type
2. R : A ⟶ A ⟶ ℙ
3. a : A
4. b : A
5. L : (a:A × b:A × ((R a b) ∨ (R b a))) List
6. rel_path(A;L;a;b) ∧ 0 < ||L||
⊢ rel_path(A;rev(map(λt.let a,b,r = t in

                        <b, a, case r of inl(x) => inr x  | inr(x) => inl x>;L));b;a)

2
1. A : Type
2. R : A ⟶ A ⟶ ℙ
3. a : A
4. b : A
5. L : (a:A × b:A × ((R a b) ∨ (R b a))) List
6. rel_path(A;L;a;b) ∧ 0 < ||L||
⊢ 0 < ||rev(map(λt.let a,b,r = t in
<b, a, case r of inl(x) => inr x | inr(x) => inl x>;L))||

Latex:

Latex:
.....set predicate..... 1. A : Type 2. R : A {}\mrightarrow{} A {}\mrightarrow{} \mBbbP{} 3. a : A 4. b : A 5. L : (a:A \mtimes{} b:A \mtimes{} ((R a b) \mvee{} (R b a))) List 6. rel\_path(A;L;a;b) \mwedge{} 0 < ||L|| \mvdash{} rel\_path(A;rev(map(\mlambda{}t.let a,b,r = t in <b, a, case r of inl(x) => inr x | inr(x) => inl x>L));b;a) \mwedge{} 0 < ||rev(map(\mlambda{}t.let a,b,r = t in <b, a, case r of inl(x) => inr x | inr(x) => inl x>L))|| By Latex: D 0 Home Index