Proof of Nuprl Lemma : simple-loc-comb1-classrel

Step * 1 2 of Lemma simple-loc-comb1-classrel

1. Info : Type
2. B : Type
3. C : Type
4. f : Id ─→ B ─→ C
5. X : EClass(B)
6. es : EO+(Info)
7. e : E
8. v : C
9. uiff(v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λ₂k.[X][k]|(e);↓∃vs:k:ℕ1 ─→ [B][k]

                                                          ((∀k:ℕ1. vs[k] ∈ [X][k](e))

                                                          ∧ (v = ((λx,vs. (f x (vs 0))) loc(e) vs) ∈ C)))

⊢ uiff(v ∈ simple-loc-comb1(l,a.lifting1-loc(f;l;a);X)(e);↓∃b:B. (b ∈ X(e) ∧ (v = (f loc(e) b) ∈ C)))

BY
{ (RepUR ``simple-loc-comb1`` 0⋅
   THEN \p. Assert (mk_simple_term `uiff` [subtermn 2 (clause_type (-1) p); subtermn 2 (concl p)]) p⋅
   THEN Reduce 0
   THEN (All (RepUR ``so_lambda so_apply``)
         THEN D 0
         THEN D 0
         THEN Try ((RepeatFor 2 (ThinTrivial) THEN Trivial))
         THEN (Auto THEN Auto')⋅)⋅) }

1
1. Info : Type
2. B : Type
3. C : Type
4. f : Id ─→ B ─→ C
5. X : EClass(B)
6. es : EO+(Info)
7. e : E
8. v : C
9. ∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))
10. v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λk.[X][k]|(e)
11. ∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))
⊢ ↓∃b:B. (b ∈ X(e) ∧ (v = (f loc(e) b) ∈ C))

2
1. Info : Type
2. B : Type
3. C : Type
4. f : Id ─→ B ─→ C
5. X : EClass(B)
6. es : EO+(Info)
7. e : E
8. v : C
9. ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))
   supposing v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λk.[X][k]|(e)
10. v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λk.[X][k]|(e)

    supposing ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))

11. ∃b:B. (b ∈ X(e) ∧ (v = (f loc(e) b) ∈ C))
⊢ ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))

3
1. Info : Type
2. B : Type
3. C : Type
4. f : Id ─→ B ─→ C
5. X : EClass(B)
6. es : EO+(Info)
7. e : E
8. v : C
9. ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))
supposing v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λk.[X][k]|(e)
10. v ∈ λl,w. lifting1-loc(f;l;w 0)|Loc; λk.[X][k]|(e)

    supposing ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))

11. ↓∃b:B. (b ∈ X(e) ∧ (v = (f loc(e) b) ∈ C))

    supposing ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))

12. ↓∃vs:k:ℕ1 ─→ [B][k]. ((∀k:ℕ1. vs k ∈ [X][k](e)) ∧ (v = (f loc(e) (vs 0)) ∈ C))

supposing ↓∃b:B. (b ∈ X(e) ∧ (v = (f loc(e) b) ∈ C))
⊢ λl,w. lifting1-loc(f;l;w 0)|Loc; λz.[X][z]| ∈ EClass(C)

Latex:

Latex:
1. Info : Type 2. B : Type 3. C : Type 4. f : Id {}\mrightarrow{} B {}\mrightarrow{} C 5. X : EClass(B) 6. es : EO+(Info) 7. e : E 8. v : C 9. uiff(v \mmember{} \mlambda{}l,w. lifting1-loc(f;l;w 0)|Loc; \mlambda{}\msubtwo{}k.[X][k]|(e);\mdownarrow{}\mexists{}vs:k:\mBbbN{}1 {}\mrightarrow{} [B][k] ((\mforall{}k:\mBbbN{}1. vs[k] \mmember{} [X][k](e)) \mwedge{} (v = ((\mlambda{}x,vs. (f x (vs 0))) loc(e) vs)))\000C) \mvdash{} uiff(v \mmember{} simple-loc-comb1(l,a.lifting1-loc(f;l;a);X)(e);\mdownarrow{}\mexists{}b:B. (b \mmember{} X(e) \mwedge{} (v = (f loc(e) b)))) By Latex: (RepUR ``simple-loc-comb1`` 0\mcdot{} THEN \mbackslash{}p. Assert (mk\_simple\_term `uiff` [subtermn 2 (clause\_type (-1) p); subtermn 2 (concl p)]) p\mcdot{} THEN Reduce 0 THEN (All (RepUR ``so\_lambda so\_apply``) THEN D 0 THEN D 0 THEN Try ((RepeatFor 2 (ThinTrivial) THEN Trivial)) THEN (Auto THEN Auto')\mcdot{})\mcdot{}) Home Index