let f be non constant standard special_circular_sequence; for k being Nat st 1 <= k & k + 2 <= len f holds
for i being Nat st 1 <= i & i + 2 <= len (GoB f) & f /. (k + 1) = (GoB f) * ((i + 1),(width (GoB f))) & ( ( f /. k = (GoB f) * (i,(width (GoB f))) & f /. (k + 2) = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) or ( f /. (k + 2) = (GoB f) * (i,(width (GoB f))) & f /. k = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) ) holds
LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) misses L~ f
let k be Nat; ( 1 <= k & k + 2 <= len f implies for i being Nat st 1 <= i & i + 2 <= len (GoB f) & f /. (k + 1) = (GoB f) * ((i + 1),(width (GoB f))) & ( ( f /. k = (GoB f) * (i,(width (GoB f))) & f /. (k + 2) = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) or ( f /. (k + 2) = (GoB f) * (i,(width (GoB f))) & f /. k = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) ) holds
LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) misses L~ f )
assume that
A1:
k >= 1
and
A2:
k + 2 <= len f
; for i being Nat st 1 <= i & i + 2 <= len (GoB f) & f /. (k + 1) = (GoB f) * ((i + 1),(width (GoB f))) & ( ( f /. k = (GoB f) * (i,(width (GoB f))) & f /. (k + 2) = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) or ( f /. (k + 2) = (GoB f) * (i,(width (GoB f))) & f /. k = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) ) holds
LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) misses L~ f
A3:
(k + 1) + 1 = k + (1 + 1)
;
then
k + 1 < len f
by A2, NAT_1:13;
then A4:
( LSeg (f,(k + 1)) c= L~ f & LSeg (f,k) = LSeg ((f /. k),(f /. (k + 1))) )
by A1, TOPREAL1:def 3, TOPREAL3:19;
1 <= k + 1
by NAT_1:11;
then A5:
LSeg (f,(k + 1)) = LSeg ((f /. (k + 1)),(f /. (k + 2)))
by A2, A3, TOPREAL1:def 3;
let i be Nat; ( 1 <= i & i + 2 <= len (GoB f) & f /. (k + 1) = (GoB f) * ((i + 1),(width (GoB f))) & ( ( f /. k = (GoB f) * (i,(width (GoB f))) & f /. (k + 2) = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) or ( f /. (k + 2) = (GoB f) * (i,(width (GoB f))) & f /. k = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) ) implies LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) misses L~ f )
assume that
A6:
1 <= i
and
A7:
i + 2 <= len (GoB f)
and
A8:
f /. (k + 1) = (GoB f) * ((i + 1),(width (GoB f)))
and
A9:
( ( f /. k = (GoB f) * (i,(width (GoB f))) & f /. (k + 2) = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) or ( f /. (k + 2) = (GoB f) * (i,(width (GoB f))) & f /. k = (GoB f) * ((i + 1),((width (GoB f)) -' 1)) ) )
; LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) misses L~ f
A10:
(i + 1) + 1 = i + (1 + 1)
;
then A11:
i + 1 < len (GoB f)
by A7, NAT_1:13;
then A12:
L~ f misses Int (cell ((GoB f),(i + 1),(width (GoB f))))
by GOBOARD7:12;
A13:
1 <= width (GoB f)
by GOBOARD7:33;
then A14:
((width (GoB f)) -' 1) + 1 = width (GoB f)
by XREAL_1:235;
then A15:
(width (GoB f)) -' 1 < width (GoB f)
by NAT_1:13;
then
L~ f misses Int (cell ((GoB f),(i + 1),((width (GoB f)) -' 1)))
by A11, GOBOARD7:12;
then A16:
L~ f misses (Int (cell ((GoB f),(i + 1),((width (GoB f)) -' 1)))) \/ (Int (cell ((GoB f),(i + 1),(width (GoB f)))))
by A12, XBOOLE_1:70;
assume A17:
LSeg (((1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f)))))),(((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f)))))) + |[0,1]|)) meets L~ f
; contradiction
A18:
1 <= i + 1
by NAT_1:11;
A19:
1 < width (GoB f)
by GOBOARD7:33;
then A20:
1 <= (width (GoB f)) -' 1
by A14, NAT_1:13;
then
(1 / 2) * (((GoB f) * ((i + 1),((width (GoB f)) -' 1))) + ((GoB f) * ((i + 2),(width (GoB f))))) = (1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),((width (GoB f)) -' 1))))
by A7, A14, A10, A18, GOBOARD7:9;
then
L~ f meets ((Int (cell ((GoB f),(i + 1),((width (GoB f)) -' 1)))) \/ (Int (cell ((GoB f),(i + 1),(width (GoB f)))))) \/ {((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f))))))}
by A19, A10, A11, A18, A17, GOBOARD6:67, XBOOLE_1:63;
then
L~ f meets {((1 / 2) * (((GoB f) * ((i + 1),(width (GoB f)))) + ((GoB f) * ((i + 2),(width (GoB f))))))}
by A16, XBOOLE_1:70;
then consider k0 being Nat such that
1 <= k0
and
k0 + 1 <= len f
and
A21:
LSeg ((f /. (k + 1)),((GoB f) * ((i + 2),(width (GoB f))))) = LSeg (f,k0)
by A7, A8, A13, A10, A18, GOBOARD7:40, ZFMISC_1:50;
( LSeg (f,k0) c= L~ f & LSeg (f,k) c= L~ f )
by TOPREAL3:19;
hence
contradiction
by A6, A8, A9, A14, A20, A15, A11, A21, A4, A5, GOBOARD7:62; verum