let A be non empty set ; for L being lower-bounded LATTICE
for O1, O2 being Ordinal
for d being BiFunction of A,L
for q being QuadrSeq of d st O1 c= O2 holds
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2)
let L be lower-bounded LATTICE; for O1, O2 being Ordinal
for d being BiFunction of A,L
for q being QuadrSeq of d st O1 c= O2 holds
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2)
let O1, O2 be Ordinal; for d being BiFunction of A,L
for q being QuadrSeq of d st O1 c= O2 holds
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2)
let d be BiFunction of A,L; for q being QuadrSeq of d st O1 c= O2 holds
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2)
let q be QuadrSeq of d; ( O1 c= O2 implies ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2) )
defpred S1[ Ordinal] means ( O1 c= $1 implies ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,$1) );
A1:
for O2 being Ordinal st O2 <> 0 & O2 is limit_ordinal & ( for O3 being Ordinal st O3 in O2 holds
S1[O3] ) holds
S1[O2]
proof
deffunc H1(
Ordinal)
-> BiFunction of
(ConsecutiveSet (A,$1)),
L =
ConsecutiveDelta (
q,$1);
let O2 be
Ordinal;
( O2 <> 0 & O2 is limit_ordinal & ( for O3 being Ordinal st O3 in O2 holds
S1[O3] ) implies S1[O2] )
assume that A2:
(
O2 <> 0 &
O2 is
limit_ordinal )
and
for
O3 being
Ordinal st
O3 in O2 &
O1 c= O3 holds
ConsecutiveDelta (
q,
O1)
c= ConsecutiveDelta (
q,
O3)
;
S1[O2]
consider L being
Sequence such that A3:
(
dom L = O2 & ( for
O3 being
Ordinal st
O3 in O2 holds
L . O3 = H1(
O3) ) )
from ORDINAL2:sch 2();
A4:
ConsecutiveDelta (
q,
O2)
= union (rng L)
by A2, A3, Th28;
assume A5:
O1 c= O2
;
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2)
end;
A8:
for O2 being Ordinal st S1[O2] holds
S1[ succ O2]
proof
let O2 be
Ordinal;
( S1[O2] implies S1[ succ O2] )
assume A9:
(
O1 c= O2 implies
ConsecutiveDelta (
q,
O1)
c= ConsecutiveDelta (
q,
O2) )
;
S1[ succ O2]
assume A10:
O1 c= succ O2
;
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,(succ O2))
per cases
( O1 = succ O2 or O1 <> succ O2 )
;
suppose
O1 <> succ O2
;
ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,(succ O2))then
O1 c< succ O2
by A10;
then A11:
O1 in succ O2
by ORDINAL1:11;
ConsecutiveDelta (
q,
(succ O2)) =
new_bi_fun (
(BiFun ((ConsecutiveDelta (q,O2)),(ConsecutiveSet (A,O2)),L)),
(Quadr (q,O2)))
by Th27
.=
new_bi_fun (
(ConsecutiveDelta (q,O2)),
(Quadr (q,O2)))
by Def15
;
then
ConsecutiveDelta (
q,
O2)
c= ConsecutiveDelta (
q,
(succ O2))
by Th19;
hence
ConsecutiveDelta (
q,
O1)
c= ConsecutiveDelta (
q,
(succ O2))
by A9, A11, ORDINAL1:22;
verum end;
end;
A12:
S1[ 0 ]
;
for O2 being Ordinal holds S1[O2]
from ORDINAL2:sch 1(A12, A8, A1);
hence
( O1 c= O2 implies ConsecutiveDelta (q,O1) c= ConsecutiveDelta (q,O2) )
; verum