START_TIME = Time.utc.to_unix_ms
TL         = 1580
N          = 2048
M          =  256
INF        = 1 << 29
RND        = Random.new(2)

macro debug(msg)
  {% if flag?(:trace) %}
    STDERR.puts({{msg}})
  {% end %}
end

macro debugf(format_string, *args)
  {% if flag?(:trace) %}
    STDERR.printf({{format_string}}, {{*args}})
  {% end %}
end

class Result
  property :bits, :score

  def initialize(@bits : Array(Int32), @score : Int32)
  end

  def to_s(io)
    io << @bits.map { |v| v == -1 ? 0 : v }.reverse.join
  end
end

struct Cond
  getter :var, :val

  def initialize(@var : Int32, @val : Int32)
  end
end

alias Term = Tuple(Cond, Cond, Cond)

class Solver
  def initialize
    @terms = Array(Term).new(N) do
      a, b, c, p, q, r = read_line.split.map(&.to_i)
      {Cond.new(a, p), Cond.new(b, q), Cond.new(c, r)}
    end
    @var_pos = Array(Array(Tuple(Int32, Int32))).new(M) { [] of Tuple(Int32, Int32) }
    N.times do |i|
      3.times do |j|
        term = @terms[i][j]
        @var_pos[term.var] << {i, term.val}
      end
    end
    @best_result = Result.new(Array.new(M, -1), 0)
    @ans = Array(Int32).new(M, -1)
    @search_order = [0, 1, 2]
    @dfs_count = 0
    @eval = Array(Int32).new(3, 0)
  end

  def solve(timelimit)
    start_time = Time.utc.to_unix_ms
    before_time = start_time
    solve_single()
    after_time = Time.utc.to_unix_ms
    worst_time = after_time - before_time
    turn = 0
    while true
      before_time = after_time
      if before_time + worst_time > timelimit
        debug("turn:#{turn} worst_time:#{worst_time}")
        break
      end
      solve_single()
      after_time = Time.utc.to_unix_ms
      worst_time = {worst_time, after_time - before_time}.max
      turn += 1
    end
    STDERR.puts("validate_score:#{score(@best_result.bits)}")
    return @best_result
  end

  def solve_single
    @ans.fill(-1)
    @dfs_count = 0
    dfs(0)
  end

  def dfs(pos)
    if pos > @best_result.score
      @best_result.score = pos
      @best_result.bits[0, M] = @ans
      debug("best_score:#{pos}")
    end
    # if score(@ans) < pos
    #   debug("#{score(@ans)} #{pos}")
    #   debug(@ans.join)
    #   exit
    # end
    if @dfs_count > 1000
      return
    end
    if @terms[pos].any? { |t| @ans[t.var] == t.val }
      dfs(pos + 1)
    else
      @dfs_count += 1
      shuffle(@search_order)
      3.times do |i|
        t = @terms[pos][@search_order[i]]
        if @ans[t.var] == -1
          ok = true
          @ans[t.var] = t.val
          @var_pos[t.var].each do |ps|
            p, v = ps
            if p > pos && p <= @best_result.score && v != t.val
              if @terms[p].all? { |nt| @ans[nt.var] == 1 - nt.val }
                ok = false
                break
              end
            end
          end
          if ok
            # debug("set bits[#{t.var}]=#{t.val}")
            dfs(pos + 1)
          end
          @ans[t.var] = -1
        end
      end
    end
  end

  def shuffle(a)
    (a.size - 1).times do |i|
      pos = RND.rand(a.size - i) + i
      a[i], a[pos] = a[pos], a[i]
    end
  end

  def score(ans)
    N.times do |i|
      if @terms[i].all? { |t| ans[t.var] != t.val }
        return i
      end
    end
    return N
  end
end

def main
  solver = Solver.new
  res = solver.solve(START_TIME + TL)
  puts res
  {% if flag?(:local) %}
    STDERR.puts("score:#{res.score}")
  {% end %}
end

main