Nuprl Lemma : is-interface-or

{

[Info:Type]

es:EO+(Info).

X,Y:EClass(Top).

e:E.
(

e

(X | Y)

(

e

X)

(

e

Y)) }

{ Proof }

Definitions occuring in Statement : es-interface-or: (X | Y), in-eclass: e

X, eclass: EClass(A[eo; e]), event-ordering+: EO+(Info), es-E: E, assert:

b, uall:

[x:A]. B[x], top: Top, all:

x:A. B[x], iff: P

Q, or: P

Q, universe: Type
Definitions : so_apply: x[s], guard: {T}, l_member: (x

l), bag_size_empty: bag_size_empty{bag_size_empty_compseq_tag_def:o}, axiom: Ax, bag_size_single: bag_size_single{bag_size_single_compseq_tag_def:o}(x), empty-bag: {}, oobright: Error :oobright, fpf: a:A fp-> B[a], one_or_both: Error :one_or_both, oobleft: Error :oobleft, bag-only: only(bs), pair: <a, b>, oobboth: Error :oobboth, single-bag: {x}, strong-subtype: strong-subtype(A;B), record-select: r.x, quotient: x,y:A//B[x; y], dep-isect: Error :dep-isect, record+: record+, le: A

B, ge: i

j , less_than: a < b, subtype_rel: A

r B, void: Void, decide: case b of inl(x) => s[x] | inr(y) => t[y], ifthenelse: if b then t else f fi , true: True, rev_implies: P

Q, false: False, lt_int: i <z j, le_int: i

z j, bfalse: ff, set: {x:A| B[x]} , real:

, grp_car: |g|, nat:

, limited-type: LimitedType, btrue: tt, prop:

, uimplies: b supposing a, uiff: uiff(P;Q), eq_atom: x =a y, null: null(as), set_blt: a <

b, grp_blt: a <

b, infix_ap: x f y, dcdr-to-bool: [d]

, bl-all: (

x

L.P[x])_b, bl-exists: (

x

L.P[x])_b, b-exists: (

i<n.P[i])_b, eq_type: eq_type(T;T'), not:

A, eq_atom: eq_atom$n(x;y), qeq: qeq(r;s), q_less: q_less(r;s), q_le: q_le(r;s), deq-member: deq-member(eq;x;L), deq-disjoint: deq-disjoint(eq;as;bs), deq-all-disjoint: deq-all-disjoint(eq;ass;bs), eq_id: a = b, eq_lnk: a = b, es-eq-E: e = e', es-bless: e <loc e', es-ble: e

loc e', bimplies: p

q, band: p

q, bor: p

q, natural_number: $n, bag-size: bag-size(bs), eq_int: (i =

j), bnot:

b, int:

, unit: Unit, bool:

, apply: f a, subtype: S

T, equal: s = t, member: t

T, eclass: EClass(A[eo; e]), es-interface-or: (X | Y), in-eclass: e

X, oob-apply: oob-apply(xs;ys), eclass-compose2: eclass-compose2(f;X;Y), lambda:

x.A[x], assert:

b, uall:

[x:A]. B[x], isect:

x:A. B[x], iff: P

Q, and: P

Q, product: x:A

B[x], implies: P

Q, or: P

Q, union: left + right, universe: Type, all:

x:A. B[x], function: x:A

B[x], bag: bag(T), top: Top, es-E: E, event_ordering: EO, event-ordering+: EO+(Info), MaAuto: Error :MaAuto, RepeatFor: Error :RepeatFor, CollapseTHEN: Error :CollapseTHEN, Auto: Error :Auto, CollapseTHENA: Error :CollapseTHENA
Lemmas : assert_wf, not_wf, nat_wf, bag-size_wf, top_wf, bnot_wf, bool_wf, assert_of_eq_int, not_functionality_wrt_uiff, assert_of_bnot, uiff_transitivity, eqff_to_assert, eqtt_to_assert, bag_wf, event-ordering+_wf, event-ordering+_inc, es-E_wf, eq_int_wf, true_wf, assert_witness, bag-only_wf, Error :oobboth_wf, Error :one_or_both_wf, single-bag_wf, ifthenelse_wf, Error :oobleft_wf, false_wf, member_wf, subtype_rel_wf, rev_implies_wf, iff_wf

\mforall{}[Info:Type]. \mforall{}es:EO+(Info). \mforall{}X,Y:EClass(Top). \mforall{}e:E. (\muparrow{}e \mmember{}\msubb{} (X | Y) \mLeftarrow{}{}\mRightarrow{} (\muparrow{}e \mmember{}\msubb{} X) \mvee{} (\muparrow{}e \mmember{}\msubb{} Y)) Date html generated: 2011_08_16-PM-04_22_50 Last ObjectModification: 2011_06_20-AM-00_48_52 Home Index