Nuprl Lemma : case-endpoints-1

∀[G:j⊢]. ∀[A:{G ⊢ _}]. ∀[a:Top]. ∀[b:{G ⊢ _:A}].  ([1(𝕀)=0 ⊢→ a; 1(𝕀)=1 ⊢→ b] = b ∈ {G ⊢ _:A})

Proof

Definitions occuring in Statement : case-endpoints: [r=0 ⊢→ a; r=1 ⊢→ b], interval-1: 1(𝕀), cubical-term: {X ⊢ _:A}, cubical-type: {X ⊢ _}, cubical_set: CubicalSet, uall: ∀[x:A]. B[x], top: Top, equal: s = t ∈ T
Definitions unfolded in proof : uall: ∀[x:A]. B[x], case-endpoints: [r=0 ⊢→ a; r=1 ⊢→ b], case-term: (u ∨ v), member: t ∈ T, uimplies: b supposing a, sq_type: SQType(T), all: ∀x:A. B[x], implies: P ⇒ Q, guard: {T}, cubical-term: {X ⊢ _:A}, ifthenelse: if b then t else f fi , bfalse: ff, cubical-term-at: u(a), subtype_rel: A ⊆r B, cubical-type-at: A(a), pi1: fst(t), face-type: 𝔽, constant-cubical-type: (X), I_cube: A(I), functor-ob: ob(F), face-presheaf: 𝔽, lattice-point: Point(l), record-select: r.x, face_lattice: face_lattice(I), face-lattice: face-lattice(T;eq), free-dist-lattice-with-constraints: free-dist-lattice-with-constraints(T;eq;x.Cs[x]), constrained-antichain-lattice: constrained-antichain-lattice(T;eq;P), mk-bounded-distributive-lattice: mk-bounded-distributive-lattice, mk-bounded-lattice: mk-bounded-lattice(T;m;j;z;o), record-update: r[x := v], eq_atom: x =a y, btrue: tt, bool: 𝔹, unit: Unit, it: ⋅, uiff: uiff(P;Q), and: P ∧ Q, bdd-distributive-lattice: BoundedDistributiveLattice, so_lambda: λ₂x.t[x], prop: ℙ, so_apply: x[s], exists: ∃x:A. B[x], or: P ∨ Q, bnot: ¬_bb, assert: ↑b, false: False, not: ¬A, rev_implies: P ⇐ Q, iff: P ⇐⇒ Q, interval-1: 1(𝕀), face-zero: (i=0), dm-neg: ¬(x), lattice-extend: lattice-extend(L;eq;eqL;f;ac), lattice-fset-join: \/(s), reduce: reduce(f;k;as), list_ind: list_ind, fset-image: f"(s), f-union: f-union(domeq;rngeq;s;x.g[x]), list_accum: list_accum, dM1: 1, lattice-1: 1, dM: dM(I), free-DeMorgan-algebra: free-DeMorgan-algebra(T;eq), mk-DeMorgan-algebra: mk-DeMorgan-algebra(L;n), free-DeMorgan-lattice: free-DeMorgan-lattice(T;eq), free-dist-lattice: free-dist-lattice(T; eq), fset-singleton: {x}, cons: [a / b], nil: [], fset-union: x ⋃ y, l-union: as ⋃ bs, insert: insert(a;L), eval_list: eval_list(t), deq-member: x ∈_b L, lattice-join: a ∨ b, opposite-lattice: opposite-lattice(L), so_lambda: λ₂x y.t[x; y], lattice-meet: a ∧ b, fset-ac-glb: fset-ac-glb(eq;ac1;ac2), fset-minimals: fset-minimals(x,y.less[x; y]; s), fset-filter: {x ∈ s | P[x]}, filter: filter(P;l), lattice-fset-meet: /\(s), empty-fset: {}, lattice-0: 0, dM0: 0, squash: ↓T, true: True
Lemmas referenced : subtype_base_sq, bool_wf, bool_subtype_base, I_cube_wf, fset_wf, nat_wf, cubical-term-equal, cubical-term_wf, cubical-type-cumulativity2, cubical_set_cumulativity-i-j, istype-top, cubical-type_wf, cubical_set_wf, fl-eq_wf, cubical-term-at_wf, face-type_wf, face-zero_wf, interval-1_wf, subtype_rel_self, lattice-point_wf, face_lattice_wf, lattice-1_wf, eqtt_to_assert, assert-fl-eq, subtype_rel_set, bounded-lattice-structure_wf, lattice-structure_wf, lattice-axioms_wf, bounded-lattice-structure-subtype, bounded-lattice-axioms_wf, equal_wf, lattice-meet_wf, lattice-join_wf, eqff_to_assert, bool_cases_sqequal, assert-bnot, iff_weakening_uiff, assert_wf, bfalse_wf, squash_wf, true_wf, istype-universe, dM-to-FL-dM0, iff_weakening_equal, face-lattice-0-not-1
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, isect_memberFormation_alt, equalitySymmetry, cut, functionExtensionality, sqequalRule, thin, instantiate, introduction, extract_by_obid, sqequalHypSubstitution, isectElimination, cumulativity, hypothesis, independent_isectElimination, dependent_functionElimination, equalityTransitivity, independent_functionElimination, applyEquality, setElimination, rename, hypothesisEquality, universeIsType, because_Cache, inhabitedIsType, lambdaFormation_alt, unionElimination, equalityElimination, productElimination, lambdaEquality_alt, productEquality, isectEquality, dependent_pairFormation_alt, equalityIstype, promote_hyp, voidElimination, imageElimination, universeEquality, natural_numberEquality, imageMemberEquality, baseClosed

Latex:
\mforall{}[G:j\mvdash{}]. \mforall{}[A:\{G \mvdash{} \_\}]. \mforall{}[a:Top]. \mforall{}[b:\{G \mvdash{} \_:A\}]. ([1(\mBbbI{})=0 \mvdash{}\mrightarrow{} a; 1(\mBbbI{})=1 \mvdash{}\mrightarrow{} b] = b) Date html generated: 2020_05_20-PM-04_15_49 Last ObjectModification: 2020_04_10-AM-04_46_53 Theory : cubical!type!theory Home Index