Pavel Patsey
292 lines
7.5 KiB
Python
292 lines
7.5 KiB
Python
import cProfile
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from typing import Optional
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Node = tuple[int, int, int]
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def get_data(input_file):
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with open(input_file, "r") as file:
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data = file.read().splitlines()
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return data
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def cidr4_to_node(cidr4: str) -> Node:
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ip, mask_len = cidr4.strip().split("/")
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mask_len = int(mask_len)
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a, b, c, d = list(map(int, ip.split(".")))
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ip_value = a * 256**3 + b * 256**2 + c * 256**1 + d * 256**0
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added_ips_number = 0
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return ip_value, mask_len, added_ips_number
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def sort_nodes(nodes: list[Node]) -> list[Node]:
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return sorted(nodes, key=lambda x: (x[1], x[0]))
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def get_net_addr(ip: int, mask_len: int) -> int:
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mask = ((1 << mask_len) - 1) << (32 - mask_len)
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net_addr = ip & mask
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return net_addr
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def get_parent_mask(ip: int, mask_len: int) -> Optional[int]:
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if mask_len == 0:
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return None
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return get_net_addr(ip, mask_len - 1)
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def have_same_parent(ip_a, mask_len_a, ip_b, mask_len_b) -> bool:
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return mask_len_a == mask_len_b and get_parent_mask(
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ip_a, mask_len_a
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) == get_parent_mask(ip_b, mask_len_b)
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def get_group_with_max_mask_len(nodes: list[Node]) -> list[Node]:
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max_mask_len = max(nodes, key=lambda x: x[1])[1]
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return list(filter(lambda x: x[1] == max_mask_len, nodes))
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def get_parent(a: Node, b: Optional[Node] = None) -> Node:
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ip_a, mask_len_a, added_ips_number_a = a
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ip = get_parent_mask(ip_a, mask_len_a)
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mask_len = mask_len_a - 1
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added_ips_number = added_ips_number_a + 2 ** (32 - mask_len_a)
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if b:
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ip_b, mask_len_b, added_ips_b = b
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assert have_same_parent(ip_a, mask_len_a, ip_b, mask_len_b)
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added_ips_number = added_ips_number_a + added_ips_b
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return ip, mask_len, added_ips_number
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def reduce_nodes(nodes: list[Node]) -> list[Node]:
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group = get_group_with_max_mask_len(nodes)
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neighbours = []
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loners = []
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i = 0
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while i < len(group) - 1:
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a, b = group[i], group[i + 1]
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ip_a, mask_len_a, _ = a
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ip_b, mask_len_b, _ = b
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if have_same_parent(ip_a, mask_len_a, ip_b, mask_len_b):
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neighbours.append((a, b))
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i += 2
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else:
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loners.append(a)
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i += 1
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if i == len(group) - 1:
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loners.append(group[i])
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if neighbours:
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zipped = zip(neighbours, map(lambda x: get_parent(x[0], x[1]), neighbours))
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min_zipped = min(zipped, key=lambda x: x[1][2])
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(a, b), parent = min_zipped
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nodes.remove(a)
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nodes.remove(b)
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nodes.append(parent)
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elif loners:
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zipped = zip(loners, map(get_parent, loners))
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min_zipped = min(zipped, key=lambda x: x[1][2])
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a, parent = min_zipped
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nodes.remove(a)
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nodes.append(parent)
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else:
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assert False, "Error"
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return sort_nodes(nodes)
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def merge_nodes(nodes: list[Node], required_len: int) -> list[Node]:
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while len(nodes) > required_len:
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nodes = reduce_nodes(nodes)
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return nodes
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def node_to_cidr4(ip_value, mask_len) -> str:
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lst = [str(ip_value >> (i << 3) & 0xFF) for i in reversed(range(4))]
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ip = ".".join(lst)
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return f"{ip}/{mask_len}"
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def answer(nodes: list[Node], required_len: int) -> tuple[list[str], int]:
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nodes = sort_nodes(nodes)
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merged_nodes = merge_nodes(nodes, required_len)
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cidr4s = []
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sum_added_ips = 0
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for ip_value, mask_len, added_ips in merged_nodes:
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cidr4s.append(node_to_cidr4(ip_value, mask_len))
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sum_added_ips += added_ips
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return cidr4s, sum_added_ips
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def main():
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file = "cidr4.txt"
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required_len = 20
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data = get_data(file)
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nodes = list(map(cidr4_to_node, data))
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cidr4s, sum_added_ips = answer(nodes, required_len)
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cidr4s_str = "\n".join(cidr4s)
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print(
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f"Исходный список длины {len(nodes)} сокращен до {len(cidr4s)}\n"
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f"Количество добавленных ip адресов: {sum_added_ips:_}\n"
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f"Список объединенных cidr4:\n"
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f"{cidr4s_str}"
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)
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if __name__ == "__main__":
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assert cidr4_to_node("4.78.139.0/24") == (72256256, 24, 0)
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assert cidr4_to_node("0.0.0.0/32") == (0, 32, 0)
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assert node_to_cidr4(72256256, 24) == "4.78.139.0/24"
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assert node_to_cidr4(0, 32) == "0.0.0.0/32"
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bin_a = "10011000000000001000010000010000"
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assert len(bin_a) == 32
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value_a = int(bin_a, 2)
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bin_b = "10011100000000000000000000101011"
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assert len(bin_b) == 32
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value_b = int(bin_b, 2)
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bin_c = "10011000000000000000000000000000"
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assert len(bin_c) == 32
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value_c = int(bin_c, 2)
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bin_d = "11111100000000000000000000000000"
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assert len(bin_c) == 32
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value_d = int(bin_d, 2)
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assert get_net_addr(value_a, 5) == value_c
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assert get_net_addr(value_b, 5) == value_c
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assert get_net_addr(0, 1) == 0
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assert get_net_addr(0, 0) == 0
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assert get_parent_mask(value_a, 6) == value_c
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assert get_parent_mask(value_b, 6) == value_c
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assert get_parent_mask(0, 1) == 0
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assert get_parent_mask(0, 0) is None
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assert have_same_parent(value_a, 6, value_b, 6) is True
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assert have_same_parent(value_a, 6, value_b, 5) is False
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assert have_same_parent(value_a, 6, value_d, 6) is False
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assert have_same_parent(value_a, 6, 0, 1) is False
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assert have_same_parent(value_a, 6, 0, 0) is False
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assert sort_nodes(
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[
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(401219072, 24, 0),
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(2899902464, 19, 0),
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(400657664, 24, 0),
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(520969728, 23, 0),
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]
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) == [
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(2899902464, 19, 0),
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(520969728, 23, 0),
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(400657664, 24, 0),
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(401219072, 24, 0),
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]
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assert get_group_with_max_mask_len(
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[
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(2899902464, 19, 0),
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(520969728, 23, 0),
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(400657664, 24, 0),
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(401219072, 24, 0),
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]
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) == [(400657664, 24, 0), (401219072, 24, 0)]
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assert get_group_with_max_mask_len(
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[
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(401219072, 24, 0),
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(2899902464, 19, 0),
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(520969728, 23, 0),
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]
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) == [(401219072, 24, 0)]
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assert get_parent((0, 2, 12), (1073741824, 2, 3)) == (0, 1, 15)
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assert get_parent((2147483648, 2, 1), (3221225472, 2, 2)) == (2147483648, 1, 3)
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assert reduce_nodes(
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[
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(0, 2, 12),
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(1073741824, 2, 3),
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]
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) == [
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(0, 1, 15),
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]
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assert reduce_nodes(
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[
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(0, 2, 12),
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(1073741824, 2, 3),
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(2147483648, 2, 1),
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(3221225472, 2, 2),
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]
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) == [
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(2147483648, 1, 3),
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(0, 2, 12),
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(1073741824, 2, 3),
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]
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assert reduce_nodes(
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[
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(0, 2, 12),
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(2147483648, 1, 0),
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]
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) == [
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(0, 1, 12 + 2**30),
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(2147483648, 1, 0),
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]
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assert reduce_nodes(
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[
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(0, 1, 12 + 2**30),
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(2147483648, 1, 0),
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]
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) == [
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(0, 0, 12 + 2**30),
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]
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assert merge_nodes(
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[
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(0, 2, 12),
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(2147483648, 2, 1),
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(3221225472, 2, 2),
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],
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2,
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) == [
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(2147483648, 1, 3),
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(0, 2, 12),
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]
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assert merge_nodes(
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[
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(0, 2, 12),
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(2147483648, 2, 1),
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(3221225472, 2, 2),
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],
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1,
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) == [(0, 0, 15 + 2**30)]
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assert answer(
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[
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(0, 2, 0),
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(2147483648, 2, 0),
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(3221225472, 2, 12),
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],
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2,
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) == (["128.0.0.0/1", "0.0.0.0/2"], 12)
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assert answer(
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[
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(0, 2, 0),
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(2147483648, 2, 0),
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],
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1,
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) == (["0.0.0.0/0"], 2**31)
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cProfile.run("main()")
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