Proof of Nuprl Lemma : context-subset-subtype

Step * 1 3 of Lemma context-subset-subtype

.....eq aux.....
1. Gamma : CubicalSet{j}
2. phi1 : {Gamma ⊢ _:𝔽}
3. phi2 : {Gamma ⊢ _:𝔽}
4. A : I:fset(ℕ) ⟶ Gamma, phi1(I) ⟶ Type
5. x1 : I:fset(ℕ) ⟶ J:fset(ℕ) ⟶ f:J ⟶ I ⟶ a:Gamma, phi1(I) ⟶ (A I a) ⟶ (A J f(a))
6. (∀I:fset(ℕ). ∀a:Gamma, phi1(I). ∀u:A I a. ((x1 I I 1 a u) = u ∈ (A I a)))
∧ (∀I,J,K:fset(ℕ). ∀f:J ⟶ I. ∀g:K ⟶ J. ∀a:Gamma, phi1(I). ∀u:A I a.
((x1 I K f ⋅ g a u) = (x1 J K g f(a) (x1 I J f a u)) ∈ (A K f ⋅ g(a))))
7. ∀I:fset(ℕ). (Gamma, phi2(I) ⊆r Gamma, phi1(I))
8. A1 : I:fset(ℕ) ⟶ Gamma, phi2(I) ⟶ Type

⊢ istype(I:fset(ℕ) ⟶ J:fset(ℕ) ⟶ f:J ⟶ I ⟶ a:Gamma, phi2(I) ⟶ (A1 I a) ⟶ (A1 J f(a)))

BY
{ Auto }

Latex:

Latex:
.....eq aux..... 1. Gamma : CubicalSet\{j\} 2. phi1 : \{Gamma \mvdash{} \_:\mBbbF{}\} 3. phi2 : \{Gamma \mvdash{} \_:\mBbbF{}\} 4. A : I:fset(\mBbbN{}) {}\mrightarrow{} Gamma, phi1(I) {}\mrightarrow{} Type 5. x1 : I:fset(\mBbbN{}) {}\mrightarrow{} J:fset(\mBbbN{}) {}\mrightarrow{} f:J {}\mrightarrow{} I {}\mrightarrow{} a:Gamma, phi1(I) {}\mrightarrow{} (A I a) {}\mrightarrow{} (A J f(a)) 6. (\mforall{}I:fset(\mBbbN{}). \mforall{}a:Gamma, phi1(I). \mforall{}u:A I a. ((x1 I I 1 a u) = u)) \mwedge{} (\mforall{}I,J,K:fset(\mBbbN{}). \mforall{}f:J {}\mrightarrow{} I. \mforall{}g:K {}\mrightarrow{} J. \mforall{}a:Gamma, phi1(I). \mforall{}u:A I a. ((x1 I K f \mcdot{} g a u) = (x1 J K g f(a) (x1 I J f a u)))) 7. \mforall{}I:fset(\mBbbN{}). (Gamma, phi2(I) \msubseteq{}r Gamma, phi1(I)) 8. A1 : I:fset(\mBbbN{}) {}\mrightarrow{} Gamma, phi2(I) {}\mrightarrow{} Type \mvdash{} istype(I:fset(\mBbbN{}) {}\mrightarrow{} J:fset(\mBbbN{}) {}\mrightarrow{} f:J {}\mrightarrow{} I {}\mrightarrow{} a:Gamma, phi2(I) {}\mrightarrow{} (A1 I a) {}\mrightarrow{} (A1 J f(a))) By Latex: Auto Home Index