Nuprl Lemma : pi-comp-nu-uniformity

∀[Gamma:j⊢]. ∀[A:{Gamma ⊢ _}]. ∀[cA:Gamma ⊢ CompOp(A)]. ∀[I:fset(ℕ)]. ∀[i:{i:ℕ| ¬i ∈ I} ]. ∀[rho:Gamma(I+i)].

∀[J,K:fset(ℕ)]. ∀[f:J ⟶ I]. ∀[g:K ⟶ J]. ∀[u:A(f((i1)(rho)))]. ∀[j:{j:ℕ| ¬j ∈ J} ]. ∀[k:{k:ℕ| ¬k ∈ K} ].

  ((pi-comp-nu(Gamma;A;cA;I;i;rho;J;f;u;j) f,i=j(rho) g,j=k)
  = pi-comp-nu(Gamma;A;cA;I;i;rho;K;f ⋅ g;(u f((i1)(rho)) g);k)
  ∈ A(f ⋅ g,i=k(rho)))

Proof

Definitions occuring in Statement : pi-comp-nu: pi-comp-nu(Gamma;A;cA;I;i;rho;J;f;u1;j), composition-op: Gamma ⊢ CompOp(A), cubical-type-ap-morph: (u a f), cubical-type-at: A(a), cubical-type: {X ⊢ _}, cube-set-restriction: f(s), I_cube: A(I), cubical_set: CubicalSet, nc-e': g,i=j, nc-1: (i1), add-name: I+i, nh-comp: g ⋅ f, names-hom: I ⟶ J, fset-member: a ∈ s, fset: fset(T), int-deq: IntDeq, nat: ℕ, uall: ∀[x:A]. B[x], not: ¬A, set: {x:A| B[x]} , equal: s = t ∈ T
Definitions unfolded in proof : uall: ∀[x:A]. B[x], member: t ∈ T, pi-comp-nu: pi-comp-nu(Gamma;A;cA;I;i;rho;J;f;u1;j), all: ∀x:A. B[x], implies: P ⇒ Q, filling-op: filling-op(Gamma;A), let: let, nat: ℕ, ge: i ≥ j , decidable: Dec(P), or: P ∨ Q, uimplies: b supposing a, not: ¬A, satisfiable_int_formula: satisfiable_int_formula(fmla), exists: ∃x:A. B[x], false: False, and: P ∧ Q, prop: ℙ, subtype_rel: A ⊆r B, squash: ↓T, guard: {T}, iff: P ⇐⇒ Q, rev_implies: P ⇐ Q, true: True, cube-set-restriction: f(s), pi2: snd(t), face-presheaf: 𝔽, fl-morph: <f>, fl-lift: fl-lift(T;eq;L;eqL;f0;f1), face-lattice-property, free-dist-lattice-with-constraints-property, lattice-extend-wc: lattice-extend-wc(L;eq;eqL;f;ac), 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, lattice-0: 0, 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], ifthenelse: if b then t else f fi , eq_atom: x =a y, bfalse: ff, btrue: tt, empty-fset: {}, nil: [], it: ⋅, bdd-distributive-lattice: BoundedDistributiveLattice, filling-uniformity: filling-uniformity(Gamma;A;fill), lattice-point: Point(l), I_cube: A(I), functor-ob: ob(F), pi1: fst(t), so_lambda: λ₂x.t[x], so_apply: x[s], int-deq: IntDeq, nat-deq: NatDeq, cubical-path-0: cubical-path-0(Gamma;A;I;i;rho;phi;u)
Lemmas referenced : fill_from_comp_wf, member-cubical-path-0-0, cube-set-restriction_wf, add-name_wf, nat_properties, decidable__le, full-omega-unsat, intformand_wf, intformnot_wf, intformle_wf, itermConstant_wf, itermVar_wf, istype-int, int_formula_prop_and_lemma, int_formula_prop_not_lemma, int_formula_prop_le_lemma, int_term_value_constant_lemma, int_term_value_var_lemma, int_formula_prop_wf, istype-le, nc-r'_wf, subtype_rel-equal, cubical-type-at_wf, nc-1_wf, nc-0_wf, equal_wf, squash_wf, true_wf, istype-universe, I_cube_wf, cube-set-restriction-comp, subtype_rel_self, iff_weakening_equal, nh-comp_wf, nc-r'-nc-0, lattice-0_wf, face_lattice_wf, trivial-section_wf, face-presheaf_wf2, nc-s_wf, f-subset-add-name, istype-nat, fset-member_wf, nat_wf, int-deq_wf, strong-subtype-deq-subtype, strong-subtype-set3, le_wf, strong-subtype-self, istype-void, istype-cubical-type-at, names-hom_wf, fset_wf, composition-op_wf, cubical_set_cumulativity-i-j, cubical-type-cumulativity2, cubical-type_wf, cubical_set_wf, nc-r_wf, trivial-member-add-name1, nc-e'_wf, cubical-type-ap-morph_wf, nc-r'-r, nat-deq_wf, nc-r'-to-e'2, nh-comp-assoc, nc-e'-lemma6, cubical-type-ap-morph-comp, nc-r'-to-e', nc-r-e'-r, nc-e'-r, cubical-path-condition-0, cubical-path-condition_wf, empty-cubical-subset-term, face-lattice-property, free-dist-lattice-with-constraints-property
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, isect_memberFormation_alt, introduction, cut, extract_by_obid, sqequalHypSubstitution, isectElimination, thin, hypothesisEquality, hypothesis, inhabitedIsType, lambdaFormation_alt, rename, setElimination, sqequalRule, because_Cache, dependent_set_memberEquality_alt, dependent_functionElimination, natural_numberEquality, unionElimination, independent_isectElimination, approximateComputation, independent_functionElimination, dependent_pairFormation_alt, lambdaEquality_alt, int_eqEquality, Error :memTop, independent_pairFormation, universeIsType, voidElimination, applyEquality, imageElimination, instantiate, equalityTransitivity, equalitySymmetry, universeEquality, imageMemberEquality, baseClosed, productElimination, equalityIstype, setIsType, functionIsType, intEquality, isect_memberEquality_alt, axiomEquality, isectIsTypeImplies, applyLambdaEquality, hyp_replacement

Latex:
\mforall{}[Gamma:j\mvdash{}]. \mforall{}[A:\{Gamma \mvdash{} \_\}]. \mforall{}[cA:Gamma \mvdash{} CompOp(A)]. \mforall{}[I:fset(\mBbbN{})]. \mforall{}[i:\{i:\mBbbN{}| \mneg{}i \mmember{} I\} ]. \mforall{}[rho:Gamma(I+i)]. \mforall{}[J,K:fset(\mBbbN{})]. \mforall{}[f:J {}\mrightarrow{} I]. \mforall{}[g:K {}\mrightarrow{} J]. \mforall{}[u:A(f((i1)(rho)))]. \mforall{}[j:\{j:\mBbbN{}| \mneg{}j \mmember{} J\} ]. \mforall{}[k:\{k:\mBbbN{}| \mneg{}k \mmember{} K\} ]. ((pi-comp-nu(Gamma;A;cA;I;i;rho;J;f;u;j) f,i=j(rho) g,j=k) = pi-comp-nu(Gamma;A;cA;I;i;rho;K;f \mcdot{} g;(u f((i1)(rho)) g);k)) Date html generated: 2020_05_20-PM-03_58_36 Last ObjectModification: 2020_04_09-PM-07_08_13 Theory : cubical!type!theory Home Index