def send_query(x, y, z)
  STDOUT.puts("? %d %d %d" % [x, y, z])
  STDOUT.flush

  d = gets.to_i
end

lefts = [-150, -150, -150]
rights = [150, 150, 150]

def ternary_search_tree(left, right)
  loop_cnt = 55 

  loop_cnt.times do
    if yield((left * 2 + right) / 3.0) < yield((left + right * 2) / 3.0)
      right = (left + right * 2) / 3.0
    else
      left = (left * 2 + right) / 3.0
    end
  end

  ((left + right) / 2.0).round
end

ans = [0, 0, 0]

3.times do |i|
  l = lefts[i]
  r = rights[i]

  if i == 0
    x = ternary_search_tree(l, r) { |x| send_query(x.round, ans[1], ans[2]) }
    ans[0] = x
  elsif i == 1
    y = ternary_search_tree(l, r) { |y| send_query(ans[0], y.round, ans[2]) }
    ans[1] = y
  else
    z = ternary_search_tree(l, r) { |z| send_query(ans[0], ans[1], z.round) }
    ans[2] = z
  end
end

min_dist = Float::INFINITY
best_ans = ans.dup

3.times do |i|
  x = ans[0] + (i - 1)

  3.times do |j|
    y = ans[1] + (j - 1)

    3.times do |k|
      z = ans[2] + (k - 1)

      d = send_query(x, y, z)

      if min_dist > d
        min_dist = d
        best_ans = [x, y, z]
      end
    end
  end
end

STDOUT.puts("! %d %d %d" % best_ans)
STDOUT.flush