let f be non constant standard clockwise_oriented special_circular_sequence; :: thesis: for G being Go-board st f is_sequence_on G holds
for i, j, k being Element of NAT st 1 <= k & k + 1 <= len f & [i,j] in Indices G & [i,(j + 1)] in Indices G & f /. k = G * i,j & f /. (k + 1) = G * i,(j + 1) holds
(f /. k) `1 <> E-bound (L~ f)
let G be Go-board; :: thesis: ( f is_sequence_on G implies for i, j, k being Element of NAT st 1 <= k & k + 1 <= len f & [i,j] in Indices G & [i,(j + 1)] in Indices G & f /. k = G * i,j & f /. (k + 1) = G * i,(j + 1) holds
(f /. k) `1 <> E-bound (L~ f) )
assume A1: f is_sequence_on G ; :: thesis: for i, j, k being Element of NAT st 1 <= k & k + 1 <= len f & [i,j] in Indices G & [i,(j + 1)] in Indices G & f /. k = G * i,j & f /. (k + 1) = G * i,(j + 1) holds
(f /. k) `1 <> E-bound (L~ f)
let i, j, k be Element of NAT ; :: thesis: ( 1 <= k & k + 1 <= len f & [i,j] in Indices G & [i,(j + 1)] in Indices G & f /. k = G * i,j & f /. (k + 1) = G * i,(j + 1) implies (f /. k) `1 <> E-bound (L~ f) )
assume that
A2: ( 1 <= k & k + 1 <= len f ) and
A3: [i,j] in Indices G and
A4: [i,(j + 1)] in Indices G and
A5: f /. k = G * i,j and
A6: f /. (k + 1) = G * i,(j + 1) and
A7: (f /. k) `1 = E-bound (L~ f) ; :: thesis: contradiction
A8: ( 0 + 1 <= i & i <= len G & 1 <= j & j <= width G ) by A3, MATRIX_1:39;
A9: ( 1 <= i & i <= len G & 1 <= j + 1 & j + 1 <= width G ) by A4, MATRIX_1:39;
A10: right_cell f,k,G = cell G,i,j by A1, A2, A3, A4, A5, A6, GOBRD13:23;
set p = (1 / 2) * ((G * i,j) + (G * (i + 1),(j + 1)));