let i be Element of NAT ; :: thesis: for G being Go-board st 1 <= i & i < len G holds
LSeg (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|),((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) c= (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))}
let G be Go-board; :: thesis: ( 1 <= i & i < len G implies LSeg (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|),((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) c= (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))} )
assume A1: ( 1 <= i & i < len G ) ; :: thesis: LSeg (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|),((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) c= (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))}
let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in LSeg (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|),((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) or x in (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))} )
assume A2: x in LSeg (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|),((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) ; :: thesis: x in (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))}
then reconsider p = x as Point of (TOP-REAL 2) ;
consider r being Real such that
A4: p = ((1 - r) * (((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,1]|)) + (r * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) and
A3: ( 0 <= r & r <= 1 ) by A2;
now
per cases ( r = 1 or r < 1 ) by A3, XXREAL_0:1;
case r = 1 ; :: thesis: p in {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))}
then p = (0. (TOP-REAL 2)) + (1 * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) by A4, EUCLID:33
.= 1 * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G)))) by EUCLID:31
.= (1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))) by EUCLID:33 ;
hence p in {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))} by TARSKI:def 1; :: thesis: verum
end;
case A5: r < 1 ; :: thesis: p in Int (cell G,i,(width G))
set s2 = (G * 1,(width G)) `2 ;
set r1 = (G * i,1) `1 ;
set r2 = (G * (i + 1),1) `1 ;
A6: ( 1 <= i + 1 & i + 1 <= len G ) by A1, NAT_1:13;
0 <> width G by GOBOARD1:def 5;
then A7: 1 <= width G by NAT_1:14;
A8: G * (i + 1),(width G) = |[((G * (i + 1),(width G)) `1 ),((G * (i + 1),(width G)) `2 )]| by EUCLID:57
.= |[((G * (i + 1),(width G)) `1 ),((G * 1,(width G)) `2 )]| by A6, A7, GOBOARD5:2
.= |[((G * (i + 1),1) `1 ),((G * 1,(width G)) `2 )]| by A6, A7, GOBOARD5:3 ;
A9: G * i,(width G) = |[((G * i,(width G)) `1 ),((G * i,(width G)) `2 )]| by EUCLID:57
.= |[((G * i,(width G)) `1 ),((G * 1,(width G)) `2 )]| by A1, A7, GOBOARD5:2
.= |[((G * i,1) `1 ),((G * 1,(width G)) `2 )]| by A1, A7, GOBOARD5:3 ;
set r3 = (1 - r) * (1 / 2);
set s3 = r * (1 / 2);
A10: p = (((1 - r) * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) + ((1 - r) * |[0 ,1]|)) + (r * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) by A4, EUCLID:36
.= ((((1 - r) * (1 / 2)) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + ((1 - r) * |[0 ,1]|)) + (r * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) by EUCLID:34
.= ((((1 - r) * (1 / 2)) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[((1 - r) * 0 ),((1 - r) * 1)]|) + (r * ((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))) by EUCLID:62
.= ((((1 - r) * (1 / 2)) * ((G * i,(width G)) + (G * (i + 1),(width G)))) + |[0 ,(1 - r)]|) + ((r * (1 / 2)) * ((G * i,(width G)) + (G * (i + 1),(width G)))) by EUCLID:34
.= ((((1 - r) * (1 / 2)) * |[(((G * i,1) `1 ) + ((G * (i + 1),1) `1 )),(((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))]|) + |[0 ,(1 - r)]|) + ((r * (1 / 2)) * ((G * i,(width G)) + (G * (i + 1),(width G)))) by A8, A9, EUCLID:60
.= ((((1 - r) * (1 / 2)) * |[(((G * i,1) `1 ) + ((G * (i + 1),1) `1 )),(((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))]|) + |[0 ,(1 - r)]|) + ((r * (1 / 2)) * |[(((G * i,1) `1 ) + ((G * (i + 1),1) `1 )),(((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))]|) by A8, A9, EUCLID:60
.= (|[(((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))),(((1 - r) * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 )))]| + |[0 ,(1 - r)]|) + ((r * (1 / 2)) * |[(((G * i,1) `1 ) + ((G * (i + 1),1) `1 )),(((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))]|) by EUCLID:62
.= (|[(((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))),(((1 - r) * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 )))]| + |[0 ,(1 - r)]|) + |[((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))),((r * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 )))]| by EUCLID:62
.= |[((((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) + 0 ),((((1 - r) * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))) + (1 - r))]| + |[((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))),((r * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 )))]| by EUCLID:60
.= |[((((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) + ((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 )))),(((((1 - r) * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))) + (1 - r)) + ((r * (1 / 2)) * (((G * 1,(width G)) `2 ) + ((G * 1,(width G)) `2 ))))]| by EUCLID:60 ;
A11: 1 - r > 0 by A5, XREAL_1:52;
then A12: (1 - r) * (1 / 2) > (1 / 2) * 0 by XREAL_1:70;
i < i + 1 by XREAL_1:31;
then A13: (G * i,1) `1 < (G * (i + 1),1) `1 by A1, A6, A7, GOBOARD5:4;
A14: r * (1 / 2) >= 0 by A3;
A15: ((G * 1,(width G)) `2 ) + (1 - r) > (G * 1,(width G)) `2 by A11, XREAL_1:31;
A16: ((G * i,1) `1 ) + ((G * i,1) `1 ) < ((G * i,1) `1 ) + ((G * (i + 1),1) `1 ) by A13, XREAL_1:8;
then A17: ((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * i,1) `1 )) < ((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 )) by A12, XREAL_1:70;
A18: (r * (1 / 2)) * (((G * i,1) `1 ) + ((G * i,1) `1 )) <= (r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 )) by A14, A16, XREAL_1:66;
(((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * i,1) `1 ))) + ((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * i,1) `1 ))) = (G * i,1) `1 ;
then A19: (G * i,1) `1 < (((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) + ((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) by A17, A18, XREAL_1:10;
A20: ((G * i,1) `1 ) + ((G * (i + 1),1) `1 ) < ((G * (i + 1),1) `1 ) + ((G * (i + 1),1) `1 ) by A13, XREAL_1:8;
then A21: ((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 )) < ((1 - r) * (1 / 2)) * (((G * (i + 1),1) `1 ) + ((G * (i + 1),1) `1 )) by A12, XREAL_1:70;
A22: (r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 )) <= (r * (1 / 2)) * (((G * (i + 1),1) `1 ) + ((G * (i + 1),1) `1 )) by A14, A20, XREAL_1:66;
(((1 - r) * (1 / 2)) * (((G * (i + 1),1) `1 ) + ((G * (i + 1),1) `1 ))) + ((r * (1 / 2)) * (((G * (i + 1),1) `1 ) + ((G * (i + 1),1) `1 ))) = (G * (i + 1),1) `1 ;
then A23: (((1 - r) * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) + ((r * (1 / 2)) * (((G * i,1) `1 ) + ((G * (i + 1),1) `1 ))) < (G * (i + 1),1) `1 by A21, A22, XREAL_1:10;
Int (cell G,i,(width G)) = { |[r',s']| where r', s' is Real : ( (G * i,1) `1 < r' & r' < (G * (i + 1),1) `1 & (G * 1,(width G)) `2 < s' ) } by A1, Th28;
hence p in Int (cell G,i,(width G)) by A10, A15, A19, A23; :: thesis: verum
end;
end;
end;
hence x in (Int (cell G,i,(width G))) \/ {((1 / 2) * ((G * i,(width G)) + (G * (i + 1),(width G))))} by XBOOLE_0:def 3; :: thesis: verum