set n = 1;
let f be constant standard special_circular_sequence; :: thesis: for p being Point of (TOP-REAL 2) st p in rng f holds
right_cell (f,(p .. f)) = right_cell ((Rotate (f,p)),1)
let p be Point of (TOP-REAL 2); :: thesis: ( p in rng f implies right_cell (f,(p .. f)) = right_cell ((Rotate (f,p)),1) )
assume A1: p in rng f ; :: thesis: right_cell (f,(p .. f)) = right_cell ((Rotate (f,p)),1)
set k = p .. f;
len f > 1 by GOBOARD7:34, XXREAL_0:2;
then p .. f < len f by A1, SPRECT_5:7;
then A2: (p .. f) + 1 <= len f by NAT_1:13;
A3: 1 <= p .. f by A1, FINSEQ_4:21;
A4: for i1, j1, i2, j2 being Nat st [i1,j1] in Indices (GoB (Rotate (f,p))) & [i2,j2] in Indices (GoB (Rotate (f,p))) & (Rotate (f,p)) /. 1 = (GoB (Rotate (f,p))) * (i1,j1) & (Rotate (f,p)) /. (1 + 1) = (GoB (Rotate (f,p))) * (i2,j2) & not ( i1 = i2 & j1 + 1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,j1) ) & not ( i1 + 1 = i2 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,(j1 -' 1)) ) & not ( i1 = i2 + 1 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i2,j2) ) holds
( i1 = i2 & j1 = j2 + 1 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),(i1 -' 1),j2) )
proof
(Rotate (f,p)) /. (((1 + 1) + (p .. f)) -' (p .. f)) = (Rotate (f,p)) /. (1 + 1) by NAT_D:34;
then A5: (Rotate (f,p)) /. ((((p .. f) + 1) + 1) -' (p .. f)) = (Rotate (f,p)) /. (1 + 1) ;
A6: right_cell (f,(p .. f)) = right_cell (f,(p .. f)) ;
let i1, j1, i2, j2 be Nat; :: thesis: ( [i1,j1] in Indices (GoB (Rotate (f,p))) & [i2,j2] in Indices (GoB (Rotate (f,p))) & (Rotate (f,p)) /. 1 = (GoB (Rotate (f,p))) * (i1,j1) & (Rotate (f,p)) /. (1 + 1) = (GoB (Rotate (f,p))) * (i2,j2) & not ( i1 = i2 & j1 + 1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,j1) ) & not ( i1 + 1 = i2 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,(j1 -' 1)) ) & not ( i1 = i2 + 1 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i2,j2) ) implies ( i1 = i2 & j1 = j2 + 1 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),(i1 -' 1),j2) ) )
assume that
A7: ( [i1,j1] in Indices (GoB (Rotate (f,p))) & [i2,j2] in Indices (GoB (Rotate (f,p))) ) and
A8: (Rotate (f,p)) /. 1 = (GoB (Rotate (f,p))) * (i1,j1) and
A9: (Rotate (f,p)) /. (1 + 1) = (GoB (Rotate (f,p))) * (i2,j2) ; :: thesis: ( ( i1 = i2 & j1 + 1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,j1) ) or ( i1 + 1 = i2 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,(j1 -' 1)) ) or ( i1 = i2 + 1 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i2,j2) ) or ( i1 = i2 & j1 = j2 + 1 & right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),(i1 -' 1),j2) ) )
A10: GoB (Rotate (f,p)) = GoB f by REVROT_1:28;
len (Rotate (f,p)) = len f by FINSEQ_6:179;
then (Rotate (f,p)) /. (len f) = (Rotate (f,p)) /. 1 by FINSEQ_6:def 1;
then (Rotate (f,p)) /. (((p .. f) + (len f)) -' (p .. f)) = (Rotate (f,p)) /. 1 by NAT_D:34;
then A11: f /. (p .. f) = (GoB f) * (i1,j1) by A1, A3, A8, A10, FINSEQ_6:183;
p .. f < (p .. f) + 1 by NAT_1:13;
then A12: f /. ((p .. f) + 1) = (GoB f) * (i2,j2) by A1, A2, A9, A10, A5, FINSEQ_6:175;
then A13: ( ( i1 = i2 & j1 + 1 = j2 & right_cell (f,(p .. f)) = cell ((GoB f),i1,j1) ) or ( i1 + 1 = i2 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB f),i1,(j1 -' 1)) ) or ( i1 = i2 + 1 & j1 = j2 & right_cell (f,(p .. f)) = cell ((GoB f),i2,j2) ) or ( i1 = i2 & j1 = j2 + 1 & right_cell (f,(p .. f)) = cell ((GoB f),(i1 -' 1),j2) ) ) by A3, A2, A7, A10, A11, A6, GOBOARD5:def 6;
per cases ( ( i1 = i2 & j1 + 1 = j2 ) or ( i1 + 1 = i2 & j1 = j2 ) or ( i1 = i2 + 1 & j1 = j2 ) or ( i1 = i2 & j1 = j2 + 1 ) ) by A3, A2, A7, A10, A11, A12, A6, GOBOARD5:def 6;
case ( i1 = i2 & j1 + 1 = j2 ) ; :: thesis: right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,j1)
hence right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,j1) by A13, REVROT_1:28; :: thesis: verum
end;
case ( i1 + 1 = i2 & j1 = j2 ) ; :: thesis: right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,(j1 -' 1))
hence right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i1,(j1 -' 1)) by A13, REVROT_1:28; :: thesis: verum
end;
case ( i1 = i2 + 1 & j1 = j2 ) ; :: thesis: right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i2,j2)
hence right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),i2,j2) by A13, REVROT_1:28; :: thesis: verum
end;
case ( i1 = i2 & j1 = j2 + 1 ) ; :: thesis: right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),(i1 -' 1),j2)
hence right_cell (f,(p .. f)) = cell ((GoB (Rotate (f,p))),(i1 -' 1),j2) by A13, REVROT_1:28; :: thesis: verum
end;
end;
end;
1 + 1 <= len (Rotate (f,p)) by GOBOARD7:34, XXREAL_0:2;
hence right_cell (f,(p .. f)) = right_cell ((Rotate (f,p)),1) by A4, GOBOARD5:def 6; :: thesis: verum