let C be Simple_closed_curve; :: thesis: for p, q being Point of (TOP-REAL 2) st LE p,q,C & LE q, E-max C,C & p <> q holds
Segment p,q,C = Segment (Upper_Arc C),(W-min C),(E-max C),p,q
let p, q be Point of (TOP-REAL 2); :: thesis: ( LE p,q,C & LE q, E-max C,C & p <> q implies Segment p,q,C = Segment (Upper_Arc C),(W-min C),(E-max C),p,q )
assume that
A1:
LE p,q,C
and
A2:
LE q, E-max C,C
and
A3:
p <> q
; :: thesis: Segment p,q,C = Segment (Upper_Arc C),(W-min C),(E-max C),p,q
A4:
Upper_Arc C is_an_arc_of W-min C, E-max C
by JORDAN6:65;
A5:
LE p, E-max C,C
by A1, A2, JORDAN6:73;
A6:
p in Upper_Arc C
by A1, A2, JORDAN17:3, JORDAN6:73;
A7:
q in Upper_Arc C
by A2, JORDAN17:3;
A8:
Upper_Arc C c= C
by JORDAN6:76;
defpred S1[ Point of (TOP-REAL 2)] means ( LE p,$1,C & LE $1,q,C );
defpred S2[ Point of (TOP-REAL 2)] means ( LE p,$1, Upper_Arc C, W-min C, E-max C & LE $1,q, Upper_Arc C, W-min C, E-max C );
A10:
for p1 being Point of (TOP-REAL 2) holds
( S1[p1] iff S2[p1] )
proof
let p1 be
Point of
(TOP-REAL 2);
:: thesis: ( S1[p1] iff S2[p1] )
hereby :: thesis: ( S2[p1] implies S1[p1] )
assume A11:
(
LE p,
p1,
C &
LE p1,
q,
C )
;
:: thesis: ( LE p,p1, Upper_Arc C, W-min C, E-max C & LE p1,q, Upper_Arc C, W-min C, E-max C )hereby :: thesis: LE p1,q, Upper_Arc C, W-min C, E-max C
per cases
( p1 = E-max C or p1 = W-min C or ( p1 <> E-max C & p1 <> W-min C ) )
;
suppose
p1 = W-min C
;
:: thesis: LE p,p1, Upper_Arc C, W-min C, E-max Cthen
LE p1,
p,
C
by A6, A8, JORDAN7:3;
then
p = p1
by A11, JORDAN6:72;
hence
LE p,
p1,
Upper_Arc C,
W-min C,
E-max C
by A5, JORDAN17:3, JORDAN5C:9;
:: thesis: verum end;
end;
assume that A17:
LE p,
p1,
Upper_Arc C,
W-min C,
E-max C
and A18:
LE p1,
q,
Upper_Arc C,
W-min C,
E-max C
;
:: thesis: S1[p1]
A19:
p1 in Upper_Arc C
by A17, JORDAN5C:def 3;
hence
LE p,
p1,
C
by A6, A17, JORDAN6:def 10;
:: thesis: LE p1,q,C
thus
LE p1,
q,
C
by A7, A18, A19, JORDAN6:def 10;
:: thesis: verum
end;
deffunc H1( set ) -> set = $1;
set X = { H1(p1) where p1 is Point of (TOP-REAL 2) : S1[p1] } ;
set Y = { H1(p1) where p1 is Point of (TOP-REAL 2) : S2[p1] } ;
A20:
{ H1(p1) where p1 is Point of (TOP-REAL 2) : S1[p1] } = { H1(p1) where p1 is Point of (TOP-REAL 2) : S2[p1] }
from FRAENKEL:sch 3(A10);
Segment p,q,C = { H1(p1) where p1 is Point of (TOP-REAL 2) : S1[p1] }
by A9, JORDAN7:def 1;
hence
Segment p,q,C = Segment (Upper_Arc C),(W-min C),(E-max C),p,q
by A20, JORDAN6:29; :: thesis: verum