Proof of Nuprl Lemma : fpf-inv-rename

Step * 2 1 1 1 of Lemma fpf-inv-rename_wf

.....set predicate.....
1. A : Type
2. C : Type
3. B : A ─→ Type
4. D : C ─→ Type
5. rinv : C ─→ (A?)
6. r : A ─→ C
7. d : C List
8. f1 : c:{c:C| (c ∈ d)} ─→ D[c]
9. inv-rel(A;C;r;rinv)
10. ∀a:A. (D[r a] = B[a] ∈ Type)
11. x : A@i
12. y : C
13. (y ∈ d)
14. ↑isl(rinv y)
15. x = outl(rinv y) ∈ A
⊢ (r x ∈ d)
BY
{ (Subst ⌈(r x) = y ∈ C⌉ 0⋅ THEN Auto) }

1
.....equality.....
1. A : Type
2. C : Type
3. B : A ─→ Type
4. D : C ─→ Type
5. rinv : C ─→ (A?)
6. r : A ─→ C
7. d : C List
8. f1 : c:{c:C| (c ∈ d)} ─→ D[c]
9. inv-rel(A;C;r;rinv)
10. ∀a:A. (D[r a] = B[a] ∈ Type)
11. x : A@i
12. y : C
13. (y ∈ d)
14. ↑isl(rinv y)
15. x = outl(rinv y) ∈ A
⊢ (r x) = y ∈ C

Latex:

.....set predicate..... 1. A : Type 2. C : Type 3. B : A {}\mrightarrow{} Type 4. D : C {}\mrightarrow{} Type 5. rinv : C {}\mrightarrow{} (A?) 6. r : A {}\mrightarrow{} C 7. d : C List 8. f1 : c:\{c:C| (c \mmember{} d)\} {}\mrightarrow{} D[c] 9. inv-rel(A;C;r;rinv) 10. \mforall{}a:A. (D[r a] = B[a]) 11. x : A@i 12. y : C 13. (y \mmember{} d) 14. \muparrow{}isl(rinv y) 15. x = outl(rinv y) \mvdash{} (r x \mmember{} d) By (Subst \mkleeneopen{}(r x) = y\mkleeneclose{} 0\mcdot{} THEN Auto) Home Index