let d9 be Nat; :: thesis: for d being non zero Nat
for l, r being Element of REAL d
for G being Grating of d st d = d9 + 1 holds
( cell (l,r) in cells (d9,G) iff ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) )
let d be non zero Nat; :: thesis: for l, r being Element of REAL d
for G being Grating of d st d = d9 + 1 holds
( cell (l,r) in cells (d9,G) iff ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) )
let l, r be Element of REAL d; :: thesis: for G being Grating of d st d = d9 + 1 holds
( cell (l,r) in cells (d9,G) iff ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) )
let G be Grating of d; :: thesis: ( d = d9 + 1 implies ( cell (l,r) in cells (d9,G) iff ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) ) )
assume A1: d = d9 + 1 ; :: thesis: ( cell (l,r) in cells (d9,G) iff ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) )
hereby :: thesis: ( ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) implies cell (l,r) in cells (d9,G) )
assume cell (l,r) in cells (d9,G) ; :: thesis: ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) )
then consider l9, r9 being Element of REAL d, i0 being Element of Seg d such that
A2: cell (l,r) = cell (l9,r9) and
A3: l9 . i0 = r9 . i0 and
A4: l9 . i0 in G . i0 and
A5: for i being Element of Seg d st i <> i0 holds
( l9 . i < r9 . i & [(l9 . i),(r9 . i)] is Gap of G . i ) by A1, Th38;
take i0 = i0; :: thesis: ( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) )
A6: now :: thesis: for i being Element of Seg d holds l9 . i <= r9 . i
let i be Element of Seg d; :: thesis: l9 . i <= r9 . i
( i = i0 or i <> i0 ) ;
hence l9 . i <= r9 . i by A3, A5; :: thesis: verum
end;
then A7: l = l9 by A2, Th28;
r = r9 by A2, A6, Th28;
hence ( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) by A3, A4, A5, A7; :: thesis: verum
end;
thus ( ex i0 being Element of Seg d st
( l . i0 = r . i0 & l . i0 in G . i0 & ( for i being Element of Seg d st i <> i0 holds
( l . i < r . i & [(l . i),(r . i)] is Gap of G . i ) ) ) implies cell (l,r) in cells (d9,G) ) by A1, Th38; :: thesis: verum