for a, b, d being real number
for p being Point of (TOP-REAL 2) st a < b & p `2 = d & a <= p `1 & p `1 <= b holds
p in LSeg (|[a,d]|,|[b,d]|)

for n being Element of NAT
for P being Subset of (TOP-REAL n)
for p1, p2 being Point of (TOP-REAL n) st P is_an_arc_of p1,p2 holds
ex f being Function of I[01],(TOP-REAL n) st
( f is continuous & f is one-to-one & rng f = P & f . 0 = p1 & f . 1 = p2 )

for p1, p2 being Point of (TOP-REAL 2)
for b, c, d being real number st p1 `1 < b & p1 `1 = p2 `1 & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d holds
LE p1,p2, rectangle ((p1 `1),b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for b, c being real number st p1 `1 < b & c < p2 `2 & c <= p1 `2 & p1 `2 <= p2 `2 & p1 `1 <= p2 `1 & p2 `1 <= b holds
LE p1,p2, rectangle ((p1 `1),b,c,(p2 `2))

for p1, p2 being Point of (TOP-REAL 2)
for c, d being real number st p1 `1 < p2 `1 & c < d & c <= p1 `2 & p1 `2 <= d & c <= p2 `2 & p2 `2 <= d holds
LE p1,p2, rectangle ((p1 `1),(p2 `1),c,d)

for p1, p2 being Point of (TOP-REAL 2)
for b, d being real number st p2 `2 < d & p2 `2 <= p1 `2 & p1 `2 <= d & p1 `1 < p2 `1 & p2 `1 <= b holds
LE p1,p2, rectangle ((p1 `1),b,(p2 `2),d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 <= b holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `1 = b & a <= p1 `1 & p1 `1 <= b & c <= p2 `2 & p2 `2 <= d holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = c & a <= p1 `1 & p1 `1 <= b & a < p2 `1 & p2 `1 <= b holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `1 = b & c <= p2 `2 & p2 `2 < p1 `2 & p1 `2 <= d holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `2 = c & c <= p1 `2 & p1 `2 <= d & a < p2 `1 & p2 `1 <= b holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = c & p2 `2 = c & a < p2 `1 & p2 `1 < p1 `1 & p1 `1 <= b holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `1 = b & a <= p1 `1 & p1 `1 <= b & c <= p2 `2 & p2 `2 <= d holds
LE p1,p2, rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = a & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 < p4 `2 & p4 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a <= p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & c <= p4 `2 & p4 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 <= b & c <= p4 `2 & p4 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 <= b & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = b & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & c <= p4 `2 & p4 `2 < p3 `2 & p3 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = b & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & c <= p3 `2 & p3 `2 <= d & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = c & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = d & p3 `2 = d & p4 `2 = d & c <= p1 `2 & p1 `2 <= d & a <= p2 `1 & p2 `1 < p3 `1 & p3 `1 < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = d & p3 `2 = d & p4 `1 = b & c <= p1 `2 & p1 `2 <= d & a <= p2 `1 & p2 `1 < p3 `1 & p3 `1 <= b & c <= p4 `2 & p4 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = d & p3 `2 = d & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & a <= p2 `1 & p2 `1 < p3 `1 & p3 `1 <= b & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = d & p3 `1 = b & p4 `1 = b & c <= p1 `2 & p1 `2 <= d & a <= p2 `1 & p2 `1 <= b & c <= p4 `2 & p4 `2 < p3 `2 & p3 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2) st p1 `1 <> p3 `1 & p4 `2 <> p2 `2 & p4 `2 <= p1 `2 & p1 `2 <= p2 `2 & p1 `1 <= p2 `1 & p2 `1 <= p3 `1 & p4 `2 <= p3 `2 & p3 `2 <= p2 `2 & p1 `1 < p4 `1 & p4 `1 <= p3 `1 holds
p1,p2,p3,p4 are_in_this_order_on rectangle ((p1 `1),(p3 `1),(p4 `2),(p2 `2))

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = d & p3 `2 = c & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & a <= p2 `1 & p2 `1 <= b & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = b & p3 `1 = b & p4 `1 = b & c <= p1 `2 & p1 `2 <= d & d >= p2 `2 & p2 `2 > p3 `2 & p3 `2 > p4 `2 & p4 `2 >= c holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = b & p3 `1 = b & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & d >= p2 `2 & p2 `2 > p3 `2 & p3 `2 >= c & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `1 = b & p3 `2 = c & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & c <= p2 `2 & p2 `2 <= d & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = a & p2 `2 = c & p3 `2 = c & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 < p2 `1 & p2 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `2 = d & p4 `2 = d & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 < p3 `1 & p3 `1 < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `2 = d & p4 `1 = b & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 < p3 `1 & p3 `1 <= b & c <= p4 `2 & p4 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `2 = d & p4 `2 = c & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 < p3 `1 & p3 `1 <= b & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `1 = b & p4 `1 = b & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 <= b & c <= p4 `2 & p4 `2 < p3 `2 & p3 `2 <= d holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `1 = b & p4 `2 = c & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 <= b & c <= p3 `2 & p3 `2 <= d & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = d & p3 `2 = c & p4 `2 = c & a <= p1 `1 & p1 `1 < p2 `1 & p2 `1 <= b & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `1 = b & p3 `1 = b & p4 `1 = b & a <= p1 `1 & p1 `1 <= b & d >= p2 `2 & p2 `2 > p3 `2 & p3 `2 > p4 `2 & p4 `2 >= c holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `1 = b & p3 `1 = b & p4 `2 = c & a <= p1 `1 & p1 `1 <= b & d >= p2 `2 & p2 `2 > p3 `2 & p3 `2 >= c & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `1 = b & p3 `2 = c & p4 `2 = c & a <= p1 `1 & p1 `1 <= b & c <= p2 `2 & p2 `2 <= d & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = d & p2 `2 = c & p3 `2 = c & p4 `2 = c & a <= p1 `1 & p1 `1 <= b & a < p4 `1 & p4 `1 < p3 `1 & p3 `1 < p2 `1 & p2 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `1 = b & p3 `1 = b & p4 `1 = b & d >= p1 `2 & p1 `2 > p2 `2 & p2 `2 > p3 `2 & p3 `2 > p4 `2 & p4 `2 >= c holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `1 = b & p3 `1 = b & p4 `2 = c & d >= p1 `2 & p1 `2 > p2 `2 & p2 `2 > p3 `2 & p3 `2 >= c & a < p4 `1 & p4 `1 <= b holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `1 = b & p3 `2 = c & p4 `2 = c & d >= p1 `2 & p1 `2 > p2 `2 & p2 `2 >= c & b >= p3 `1 & p3 `1 > p4 `1 & p4 `1 > a holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `1 = b & p2 `2 = c & p3 `2 = c & p4 `2 = c & c <= p1 `2 & p1 `2 <= d & b >= p2 `1 & p2 `1 > p3 `1 & p3 `1 > p4 `1 & p4 `1 > a holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number st a < b & c < d & p1 `2 = c & p2 `2 = c & p3 `2 = c & p4 `2 = c & b >= p1 `1 & p1 `1 > p2 `1 & p2 `1 > p3 `1 & p3 `1 > p4 `1 & p4 `1 > a holds
p1,p2,p3,p4 are_in_this_order_on rectangle (a,b,c,d)

for A, B, C, D being real number
for h, g being Function of (TOP-REAL 2),(TOP-REAL 2) st A > 0 & C > 0 & h = AffineMap (A,B,C,D) & g = AffineMap ((1 / A),(- (B / A)),(1 / C),(- (D / C))) holds
( g = h " & h = g " )

for A, B, C, D being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2) st A > 0 & C > 0 & h = AffineMap (A,B,C,D) holds
( h is being_homeomorphism & ( for p1, p2 being Point of (TOP-REAL 2) st p1 `1 < p2 `1 holds
(h . p1) `1 < (h . p2) `1 ) )

for A, B, C, D being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2) st A > 0 & C > 0 & h = AffineMap (A,B,C,D) holds
( h is being_homeomorphism & ( for p1, p2 being Point of (TOP-REAL 2) st p1 `2 < p2 `2 holds
(h . p1) `2 < (h . p2) `2 ) )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2) st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & rng f c= closed_inside_of_rectangle (a,b,c,d) holds
rng (h * f) c= closed_inside_of_rectangle ((- 1),1,(- 1),1)

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2) st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & f is continuous & f is one-to-one holds
( h * f is continuous & h * f is one-to-one )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O being Point of I[01] st a < b & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & (f . O) `1 = a holds
((h * f) . O) `1 = - 1

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for I being Point of I[01] st c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & (f . I) `2 = d holds
((h * f) . I) `2 = 1

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for I being Point of I[01] st a < b & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & (f . I) `1 = b holds
((h * f) . I) `1 = 1

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for I being Point of I[01] st c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & (f . I) `2 = c holds
((h * f) . I) `2 = - 1

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & c <= (f . O) `2 & (f . O) `2 < (f . I) `2 & (f . I) `2 <= d holds
( - 1 <= ((h * f) . O) `2 & ((h * f) . O) `2 < ((h * f) . I) `2 & ((h * f) . I) `2 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & c <= (f . O) `2 & (f . O) `2 <= d & a <= (f . I) `1 & (f . I) `1 <= b holds
( - 1 <= ((h * f) . O) `2 & ((h * f) . O) `2 <= 1 & - 1 <= ((h * f) . I) `1 & ((h * f) . I) `1 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & c <= (f . O) `2 & (f . O) `2 <= d & c <= (f . I) `2 & (f . I) `2 <= d holds
( - 1 <= ((h * f) . O) `2 & ((h * f) . O) `2 <= 1 & - 1 <= ((h * f) . I) `2 & ((h * f) . I) `2 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & c <= (f . O) `2 & (f . O) `2 <= d & a < (f . I) `1 & (f . I) `1 <= b holds
( - 1 <= ((h * f) . O) `2 & ((h * f) . O) `2 <= 1 & - 1 < ((h * f) . I) `1 & ((h * f) . I) `1 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & a <= (f . O) `1 & (f . O) `1 < (f . I) `1 & (f . I) `1 <= b holds
( - 1 <= ((h * f) . O) `1 & ((h * f) . O) `1 < ((h * f) . I) `1 & ((h * f) . I) `1 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & a <= (f . O) `1 & (f . O) `1 <= b & c <= (f . I) `2 & (f . I) `2 <= d holds
( - 1 <= ((h * f) . O) `1 & ((h * f) . O) `1 <= 1 & - 1 <= ((h * f) . I) `2 & ((h * f) . I) `2 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & a <= (f . O) `1 & (f . O) `1 <= b & a < (f . I) `1 & (f . I) `1 <= b holds
( - 1 <= ((h * f) . O) `1 & ((h * f) . O) `1 <= 1 & - 1 < ((h * f) . I) `1 & ((h * f) . I) `1 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & d >= (f . O) `2 & (f . O) `2 > (f . I) `2 & (f . I) `2 >= c holds
( 1 >= ((h * f) . O) `2 & ((h * f) . O) `2 > ((h * f) . I) `2 & ((h * f) . I) `2 >= - 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & c < d & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & c <= (f . O) `2 & (f . O) `2 <= d & a < (f . I) `1 & (f . I) `1 <= b holds
( - 1 <= ((h * f) . O) `2 & ((h * f) . O) `2 <= 1 & - 1 < ((h * f) . I) `1 & ((h * f) . I) `1 <= 1 )

for a, b, c, d being real number
for h being Function of (TOP-REAL 2),(TOP-REAL 2)
for f being Function of I[01],(TOP-REAL 2)
for O, I being Point of I[01] st a < b & h = AffineMap ((2 / (b - a)),(- ((b + a) / (b - a))),(2 / (d - c)),(- ((d + c) / (d - c)))) & a < (f . I) `1 & (f . I) `1 < (f . O) `1 & (f . O) `1 <= b holds
( - 1 < ((h * f) . I) `1 & ((h * f) . I) `1 < ((h * f) . O) `1 & ((h * f) . O) `1 <= 1 )

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = a & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 < p4 `2 & p4 `2 <= d & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = a & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 < p4 `2 & p4 `2 <= d & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a <= p4 `1 & p4 `1 <= b & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a <= p4 `1 & p4 `1 <= b & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & c <= p4 `2 & p4 `2 <= d & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & c <= p4 `2 & p4 `2 <= d & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a < p4 `1 & p4 `1 <= b & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `1 = a & p4 `2 = c & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 < p3 `2 & p3 `2 <= d & a < p4 `1 & p4 `1 <= b & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 < p4 `1 & p4 `1 <= b & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `2 = d & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 < p4 `1 & p4 `1 <= b & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for f, g being Function of I[01],(TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 <= b & c <= p4 `2 & p4 `2 <= d & f . 0 = p1 & f . 1 = p3 & g . 0 = p2 & g . 1 = p4 & f is continuous & f is one-to-one & g is continuous & g is one-to-one & rng f c= closed_inside_of_rectangle (a,b,c,d) & rng g c= closed_inside_of_rectangle (a,b,c,d) holds
rng f meets rng g

for p1, p2, p3, p4 being Point of (TOP-REAL 2)
for a, b, c, d being real number
for P, Q being Subset of (TOP-REAL 2) st a < b & c < d & p1 `1 = a & p2 `1 = a & p3 `2 = d & p4 `1 = b & c <= p1 `2 & p1 `2 < p2 `2 & p2 `2 <= d & a <= p3 `1 & p3 `1 <= b & c <= p4 `2 & p4 `2 <= d & P is_an_arc_of p1,p3 & Q is_an_arc_of p2,p4 & P c= closed_inside_of_rectangle (a,b,c,d) & Q c= closed_inside_of_rectangle (a,b,c,d) holds
P meets Q