let j be Element of NAT ; :: thesis: for G being Go-board st 1 < len G & 1 <= j & j + 1 < width G holds
LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) c= ((Int (cell G,(len G),j)) \/ (Int (cell G,(len G),(j + 1)))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}
let G be Go-board; :: thesis: ( 1 < len G & 1 <= j & j + 1 < width G implies LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) c= ((Int (cell G,(len G),j)) \/ (Int (cell G,(len G),(j + 1)))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)} )
assume A1: ( 1 < len G & 1 <= j & j + 1 < width G ) ; :: thesis: LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) c= ((Int (cell G,(len G),j)) \/ (Int (cell G,(len G),(j + 1)))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}
set p1 = G * (len G),j;
set p2 = G * (len G),(j + 1);
set q3 = G * (len G),(j + 2);
set r = (((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ));
A2: j + 1 >= 1 by NAT_1:11;
j <= j + 1 by NAT_1:11;
then A3: j < width G by A1, XXREAL_0:2;
then A4: (G * (len G),j) `1 = (G * (len G),1) `1 by A1, GOBOARD5:3
.= (G * (len G),(j + 1)) `1 by A1, A2, GOBOARD5:3 ;
A5: (j + 1) + 1 = j + (1 + 1) ;
then A6: j + (1 + 1) <= width G by A1, NAT_1:13;
A7: j + 2 >= 1 by A5, NAT_1:11;
A8: (G * (len G),(j + 1)) `1 = (G * (len G),1) `1 by A1, A2, GOBOARD5:3
.= (G * (len G),(j + 2)) `1 by A1, A6, A7, GOBOARD5:3 ;
j + 1 < j + 2 by XREAL_1:8;
then (G * (len G),(j + 1)) `2 < (G * (len G),(j + 2)) `2 by A1, A2, A6, GOBOARD5:5;
then A9: ((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 ) < ((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ) by XREAL_1:11;
j < j + 1 by XREAL_1:31;
then (G * (len G),j) `2 < (G * (len G),(j + 1)) `2 by A1, GOBOARD5:5;
then A10: ((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 ) > 0 by XREAL_1:52;
then A11: 0 < (((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )) by A9, XREAL_1:141;
A12: (((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )) < 1 by A9, A10, XREAL_1:191;
((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )) = ((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 ) by A9, A10, XCMPLX_1:88;
then A13: (G * (len G),(j + 1)) `2 = ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((G * (len G),j) `2 )) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((G * (len G),(j + 2)) `2 )) ;
A14: 1 * ((G * (len G),(j + 1)) `1 ) = ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((G * (len G),j) `1 )) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((G * (len G),(j + 2)) `1 )) by A4, A8
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) `1 ) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((G * (len G),(j + 2)) `1 )) by Lm3
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) `1 ) + ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (G * (len G),(j + 2))) `1 ) by Lm3
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (G * (len G),(j + 2)))) `1 by Lm1 ;
1 * ((G * (len G),(j + 1)) `2 ) = (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) `2 ) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((G * (len G),(j + 2)) `2 )) by A13, Lm3
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) `2 ) + ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (G * (len G),(j + 2))) `2 ) by Lm3
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (G * (len G),(j + 2)))) `2 by Lm1 ;
then A15: ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (G * (len G),j)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (G * (len G),(j + 2))) = |[((G * (len G),(j + 1)) `1 ),((G * (len G),(j + 1)) `2 )]| by A14, EUCLID:57
.= G * (len G),(j + 1) by EUCLID:57 ;
((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|)) = (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * (((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|)) by EUCLID:36
.= (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|)) + ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2))))) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * |[1,0 ]|)) by EUCLID:36
.= ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2))))) + (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|))) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * |[1,0 ]|) by EUCLID:30
.= (((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|)) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * |[1,0 ]|) by EUCLID:30
.= ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))))) + (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|) + (((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * |[1,0 ]|)) by EUCLID:30
.= ((((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 ))) * ((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2))))) + ((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * ((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))))) + (((1 - ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) + ((((G * (len G),(j + 1)) `2 ) - ((G * (len G),j) `2 )) / (((G * (len G),(j + 2)) `2 ) - ((G * (len G),j) `2 )))) * |[1,0 ]|) by EUCLID:37
.= (G * (len G),(j + 1)) + |[1,0 ]| by A16, EUCLID:33 ;
then (G * (len G),(j + 1)) + |[1,0 ]| in LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) by A11, A12;
then A17: LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) = (LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),((G * (len G),(j + 1)) + |[1,0 ]|)) \/ (LSeg ((G * (len G),(j + 1)) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|)) by A11, A12, TOPREAL1:11;
set I1 = Int (cell G,(len G),j);
set I2 = Int (cell G,(len G),(j + 1));
A18: LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),((G * (len G),(j + 1)) + |[1,0 ]|) c= (Int (cell G,(len G),j)) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)} by A1, A3, Th54;
A19: LSeg (((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|),((G * (len G),(j + 1)) + |[1,0 ]|) c= (Int (cell G,(len G),(j + 1))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)} by A1, A5, Th53, NAT_1:11;
((Int (cell G,(len G),j)) \/ (Int (cell G,(len G),(j + 1)))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)} = (Int (cell G,(len G),j)) \/ ((Int (cell G,(len G),(j + 1))) \/ ({((G * (len G),(j + 1)) + |[1,0 ]|)} \/ {((G * (len G),(j + 1)) + |[1,0 ]|)})) by XBOOLE_1:4
.= (Int (cell G,(len G),j)) \/ (((Int (cell G,(len G),(j + 1))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}) by XBOOLE_1:4
.= ((Int (cell G,(len G),j)) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}) \/ ((Int (cell G,(len G),(j + 1))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)}) by XBOOLE_1:4 ;
hence LSeg (((1 / 2) * ((G * (len G),j) + (G * (len G),(j + 1)))) + |[1,0 ]|),(((1 / 2) * ((G * (len G),(j + 1)) + (G * (len G),(j + 2)))) + |[1,0 ]|) c= ((Int (cell G,(len G),j)) \/ (Int (cell G,(len G),(j + 1)))) \/ {((G * (len G),(j + 1)) + |[1,0 ]|)} by A17, A18, A19, XBOOLE_1:13; :: thesis: verum