let G be V9() X_equal-in-line Y_equal-in-column Matrix of (TOP-REAL 2); cell G,(len G),(width G) = { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) }
A1:
cell G,(len G),(width G) = (v_strip G,(len G)) /\ (h_strip G,(width G))
by GOBOARD5:def 3;
A2:
h_strip G,(width G) = { |[r,s]| where r, s is Real : (G * 1,(width G)) `2 <= s }
by Th22;
A3:
v_strip G,(len G) = { |[r,s]| where r, s is Real : (G * (len G),1) `1 <= r }
by Th19;
thus
cell G,(len G),(width G) c= { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) }
XBOOLE_0:def 10 { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) } c= cell G,(len G),(width G)proof
let x be
set ;
TARSKI:def 3 ( not x in cell G,(len G),(width G) or x in { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) } )
assume A4:
x in cell G,
(len G),
(width G)
;
x in { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) }
then
x in v_strip G,
(len G)
by A1, XBOOLE_0:def 4;
then consider r1,
s1 being
Real such that A5:
x = |[r1,s1]|
and A6:
(G * (len G),1) `1 <= r1
by A3;
x in h_strip G,
(width G)
by A1, A4, XBOOLE_0:def 4;
then consider r2,
s2 being
Real such that A7:
x = |[r2,s2]|
and A8:
(G * 1,(width G)) `2 <= s2
by A2;
s1 = s2
by A5, A7, SPPOL_2:1;
hence
x in { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) }
by A5, A6, A8;
verum
end;
let x be set ; TARSKI:def 3 ( not x in { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) } or x in cell G,(len G),(width G) )
assume
x in { |[r,s]| where r, s is Real : ( (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s ) }
; x in cell G,(len G),(width G)
then A9:
ex r, s being Real st
( x = |[r,s]| & (G * (len G),1) `1 <= r & (G * 1,(width G)) `2 <= s )
;
then A10:
x in h_strip G,(width G)
by A2;
x in v_strip G,(len G)
by A3, A9;
hence
x in cell G,(len G),(width G)
by A1, A10, XBOOLE_0:def 4; verum