reserve x for set,
  p,q,r,s,t,u for ExtReal,
  g for Real,
  a for Element of ExtREAL;

theorem
  r <= s & s <= t implies [.r,t.] \ {s} = [.r,s.[ \/ ].s,t.]
proof
  assume that
A1: r <= s and
A2: s <= t;
  let p;
  thus p in [.r,t.] \ {s} implies p in [.r,s.[ \/ ].s,t.]
  proof
    assume
A3: p in [.r,t.] \ {s};
    then not p in {s} by XBOOLE_0:def 5;
    then p <> s by TARSKI:def 1;
    then r <= p & p < s or s < p & p <= t by A3,Th1,XXREAL_0:1;
    then p in [.r,s.[ or p in ].s,t.] by Th2,Th3;
    hence thesis by XBOOLE_0:def 3;
  end;
  assume p in [.r,s.[ \/ ].s,t.];
  then p in [.r,s.[ or p in ].s,t.] by XBOOLE_0:def 3;
  then
A4: r <= p & p < s or s < p & p <= t by Th2,Th3;
  then
A5: r <= p by A1,XXREAL_0:2;
  p <= t by A2,A4,XXREAL_0:2;
  then
A6: p in [.r,t.] by A5,Th1;
  not p in {s} by A4,TARSKI:def 1;
  hence thesis by A6,XBOOLE_0:def 5;
end;
