2021: d16: ex2: add solution
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161
2021/d16/ex2/ex2.py
Executable file
161
2021/d16/ex2/ex2.py
Executable file
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#!/usr/bin/env python
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import enum
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import functools
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import itertools
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import math
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import sys
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from dataclasses import dataclass
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from typing import Iterable, Iterator, List, Tuple, TypeVar
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RawPacket = List[bool]
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class PacketType(enum.IntEnum):
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SUM = 0
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PRODUCT = 1
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MINIMUM = 2
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MAXIMUM = 3
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LITTERAL = 4
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GREATER = 5
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LESS = 6
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EQUAL = 7
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class PacketLengthType(enum.IntEnum):
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TOTAL_BITS = 0 # Next 15 bits are the number of bits in the sub-packets
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TOTAL_PACKETS = 1 # Next 11 bits are the number of sub-packets
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@dataclass
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class PacketLength:
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type: PacketLengthType
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length: int
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@dataclass
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class Packet:
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version: int
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type: PacketType
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@dataclass
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class OperatorPacket(Packet):
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packets: List[Packet]
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@dataclass
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class LitteralPacket(Packet):
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number: int
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def solve(input: List[str]) -> int:
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def to_raw(packet: str) -> RawPacket:
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def bits(n: int) -> Iterator[bool]:
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for i in range(3, -1, -1):
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yield bool(n & (1 << i))
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nums = [int(c, 16) for c in input[0]]
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return list(itertools.chain.from_iterable(bits(n) for n in nums))
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def bits_to_int(bits: Iterable[bool]) -> int:
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return functools.reduce(lambda a, b: (a << 1) + b, bits, 0)
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def parse_packet(p: RawPacket) -> Tuple[int, Packet]:
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def packet_version(p: RawPacket) -> int:
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return bits_to_int(p[:3])
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def packet_type(p: RawPacket) -> PacketType:
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return PacketType(bits_to_int(p[3:6]))
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def parse_length(p: RawPacket) -> Tuple[int, PacketLength]:
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assert packet_type(p) != PacketType.LITTERAL # Sanity check
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type = PacketLengthType(bits_to_int(p[6:7]))
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if type == PacketLengthType.TOTAL_BITS:
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index = 7 + 15
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length = bits_to_int(p[7:index])
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else:
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index = 7 + 11
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length = bits_to_int(p[7:index])
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return index, PacketLength(type, length)
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def parse_litteral(p: RawPacket) -> Tuple[int, LitteralPacket]:
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version, type = packet_version(p), packet_type(p)
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assert type == PacketType.LITTERAL # Sanity check
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index = 6
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bits: List[bool] = []
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while True:
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bits += p[index + 1 : index + 5]
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index += 5
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# Check if we were at the last one
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if p[index - 5] == 0:
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break
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return index, LitteralPacket(version, type, bits_to_int(bits))
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def parse_operator(p: RawPacket) -> Tuple[int, OperatorPacket]:
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version, type = packet_version(p), packet_type(p)
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assert type != PacketType.LITTERAL # Sanity check
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index, length = parse_length(p)
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packets: List[Packet] = []
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if length.type == PacketLengthType.TOTAL_BITS:
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sub_index = 0
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while sub_index < length.length:
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parsed, packet = parse_packet(p[index:])
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sub_index += parsed
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index += parsed
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packets.append(packet)
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else:
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while len(packets) < length.length:
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parsed, packet = parse_packet(p[index:])
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index += parsed
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packets.append(packet)
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return index, OperatorPacket(version, type, packets)
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if packet_type(p) == PacketType.LITTERAL:
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return parse_litteral(p)
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return parse_operator(p)
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def eval(p: Packet) -> int:
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if p.type == PacketType.LITTERAL:
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assert isinstance(p, LitteralPacket) # Sanity check
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return p.number
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assert isinstance(p, OperatorPacket) # Sanity check
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packet_values = [eval(c) for c in p.packets]
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assert len(packet_values) >= 1 # Sanity check
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if p.type == PacketType.SUM:
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return sum(packet_values)
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elif p.type == PacketType.PRODUCT:
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return math.prod(packet_values)
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elif p.type == PacketType.MINIMUM:
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return min(packet_values)
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elif p.type == PacketType.MAXIMUM:
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return max(packet_values)
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elif p.type == PacketType.GREATER:
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assert len(packet_values) == 2 # Sanity check
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return int(packet_values[0] > packet_values[1])
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elif p.type == PacketType.LESS:
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assert len(packet_values) == 2 # Sanity check
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return int(packet_values[0] < packet_values[1])
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elif p.type == PacketType.EQUAL:
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assert len(packet_values) == 2 # Sanity check
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return int(packet_values[0] == packet_values[1])
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assert False # Sanity check
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raw = to_raw(input[0])
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__, packet = parse_packet(raw)
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return eval(packet)
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def main() -> None:
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input = [line.strip() for line in sys.stdin.readlines()]
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print(solve(input))
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if __name__ == "__main__":
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main()
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