Nuprl Lemma : assert-ctt-term-is

∀s:Atom. ∀t:CttTerm.
  ((↑ctt-term-is(s;t))
  ⇒ {(¬↑isvarterm(t))
     ∧ (term-opr(t) = <"opid", s> ∈ CttOp)
     ∧ (||term-bts(t)|| = ||ctt-opid-arity(s)|| ∈ ℤ)
     ∧ (∀i:ℕ||term-bts(t)||
          ((||fst(term-bts(t)[i])|| = (fst(ctt-opid-arity(s)[i])) ∈ ℤ)
          ∧ (ctt-kind(snd(term-bts(t)[i])) = (snd(ctt-opid-arity(s)[i])) ∈ ℤ)))
     ∧ (t ~ mkwfterm(term-opr(t);term-bts(t)))})

Proof

Definitions occuring in Statement : ctt-term-is: ctt-term-is(s;t), ctt-term: CttTerm, ctt-opid-arity: ctt-opid-arity(t), ctt-kind: ctt-kind(t), ctt-op: CttOp, mkwfterm: mkwfterm(f;bts), term-bts: term-bts(t), term-opr: term-opr(t), isvarterm: isvarterm(t), select: L[n], length: ||as||, int_seg: {i..j^-}, assert: ↑b, guard: {T}, pi1: fst(t), pi2: snd(t), all: ∀x:A. B[x], not: ¬A, implies: P ⇒ Q, and: P ∧ Q, pair: <a, b>, natural_number: $n, int: ℤ, token: "$token", atom: Atom, sqequal: s ~ t, equal: s = t ∈ T
Definitions unfolded in proof : all: ∀x:A. B[x], ctt-term: CttTerm, wfterm: wfterm(opr;sort;arity), uall: ∀[x:A]. B[x], member: t ∈ T, uimplies: b supposing a, sq_type: SQType(T), implies: P ⇒ Q, guard: {T}, assert: ↑b, ifthenelse: if b then t else f fi , btrue: tt, true: True, subtype_rel: A ⊆r B, coterm-fun: coterm-fun(opr;T), isvarterm: isvarterm(t), ctt-term-is: ctt-term-is(s;t), isl: isl(x), bnot: ¬_bb, bfalse: ff, band: p ∧_b q, false: False, mkterm: mkterm(opr;bts), uiff: uiff(P;Q), and: P ∧ Q, not: ¬A, ctt-op: CttOp, term-opr: term-opr(t), pi1: fst(t), outr: outr(x), sq_stable: SqStable(P), squash: ↓T, iff: P ⇐⇒ Q, or: P ∨ Q, eq_atom: x =a y, ctt-arity: ctt-arity(x), term-bts: term-bts(t), mkwfterm: mkwfterm(f;bts), pi2: snd(t), cand: A c∧ B
Lemmas referenced : assert_elim, wf-term_wf, ctt-op_wf, ctt-kind_wf, ctt-arity_wf, subtype_base_sq, bool_wf, bool_subtype_base, term-ext, subtype_rel_weakening, term_wf, coterm-fun_wf, ext-eq_inversion, istype-void, istype-assert, assert-wf-mkterm, ctt-term-is_wf, ctt-term_wf, istype-atom, term-opr_wf, isvarterm_wf, sq_stable__l_member, decidable__atom_equal, cons_wf, nil_wf, cons_member, atom_subtype_base, ctt-tokens_wf, assert_of_eq_atom, int_seg_wf, length_wf, list_wf, varname_wf, member_singleton
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, lambdaFormation_alt, sqequalHypSubstitution, setElimination, thin, rename, cut, hypothesis, introduction, extract_by_obid, isectElimination, instantiate, lambdaEquality_alt, hypothesisEquality, inhabitedIsType, universeIsType, independent_isectElimination, cumulativity, dependent_functionElimination, equalityTransitivity, equalitySymmetry, independent_functionElimination, natural_numberEquality, applyEquality, sqequalRule, unionElimination, voidElimination, productElimination, dependent_set_memberEquality_alt, equalityIstype, atomEquality, tokenEquality, imageMemberEquality, baseClosed, imageElimination, because_Cache, independent_pairFormation, productEquality, independent_pairEquality, functionIsTypeImplies, axiomEquality, axiomSqEquality, equalityElimination

Latex:
\mforall{}s:Atom. \mforall{}t:CttTerm. ((\muparrow{}ctt-term-is(s;t)) {}\mRightarrow{} \{(\mneg{}\muparrow{}isvarterm(t)) \mwedge{} (term-opr(t) = <"opid", s>) \mwedge{} (||term-bts(t)|| = ||ctt-opid-arity(s)||) \mwedge{} (\mforall{}i:\mBbbN{}||term-bts(t)|| ((||fst(term-bts(t)[i])|| = (fst(ctt-opid-arity(s)[i]))) \mwedge{} (ctt-kind(snd(term-bts(t)[i])) = (snd(ctt-opid-arity(s)[i]))))) \mwedge{} (t \msim{} mkwfterm(term-opr(t);term-bts(t)))\}) Date html generated: 2020_05_20-PM-08_23_13 Last ObjectModification: 2020_02_25-PM-02_45_17 Theory : cubical!type!theory Home Index