mirror of
https://github.com/cupcakearmy/advent-of-code.git
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170 lines
4.3 KiB
Python
170 lines
4.3 KiB
Python
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#!/usr/bin/env python
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from os.path import join, dirname
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from typing import Dict, List, Set
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# Day 08
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# Common
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def read_input(filename):
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data = join(dirname(__file__), '..', filename)
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with open(data) as f:
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return f.read().strip()
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test = read_input('test.txt')
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data = read_input('input.txt')
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class Utils:
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@staticmethod
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def count_chars(items: List[str]) -> Dict[str, int]:
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count = {}
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for item in items:
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for char in item:
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if char not in count:
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count[char] = 0
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count[char] += 1
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return count
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@staticmethod
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def group_by_length(items: List[str]) -> Dict[int, List[str]]:
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groups = {}
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for item in items:
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l = len(item)
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if l not in groups:
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groups[l] = []
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groups[l].append(item)
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return groups
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class SevenSegment:
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mappings = {
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0: 'abcefg',
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1: 'cf',
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2: 'acdeg',
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3: 'acdfg',
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4: 'bcdf',
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5: 'abdfg',
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6: 'abdefg',
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7: 'acf',
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8: 'abcdefg',
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9: 'abcdfg'
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}
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reverse = {v: k for k, v in mappings.items()}
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count: Dict[str, int] = Utils.count_chars(mappings.values())
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@staticmethod
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def encode(number: int) -> str:
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return SevenSegment.mappings[number]
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@staticmethod
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def decode(segment: str) -> int:
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normalized: str = ''.join(sorted(list(segment)))
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return SevenSegment.reverse[normalized]
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class Reading:
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def __init__(self, input: List[str], output: List[str]) -> None:
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self.input = input
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self.output = output
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self.transformations: Dict[str, str] = {}
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def translate(self, segment: str) -> str:
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return ''.join([self.transformations[char] for char in segment])
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def analyse(self):
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count = Utils.count_chars(self.input)
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by_length = Utils.group_by_length(self.input)
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# Find a & c
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# 1 and 7 have the same chars with the only difference of the 'a'
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one = set(by_length[2][0])
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seven = set(by_length[3][0])
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a = seven.difference(one).pop()
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dg: Set[str] = set()
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# Find b, e & f by statistical analysis
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for k, v in count.items():
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if v == 6:
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b = k
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self.transformations[k] = 'b'
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elif v == 4:
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self.transformations[k] = 'e'
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elif v == 9:
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self.transformations[k] = 'f'
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elif v == 8:
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if k == a:
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self.transformations[k] = 'a'
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else:
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self.transformations[k] = 'c'
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elif v == 7:
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dg.add(k)
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# Find d by looking at the 1 and 4
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# We already know b so, we subtract cf (1) from bcdf (4) and are left with bd.
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four = set(by_length[4][0])
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bd = four.difference(one)
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d = bd.difference(b).pop()
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self.transformations[d] = 'd'
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g = dg.difference(d).pop()
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self.transformations[g] = 'g'
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def read(self) -> List[int]:
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return [SevenSegment.decode(self.translate(segment)) for segment in self.output]
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@staticmethod
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def parse(data: str):
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input, output = data.split('|')
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i = input.strip().split(' ')
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o = output.strip().split(' ')
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return Reading(i, o)
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class Log:
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def __init__(self, readings: List[Reading]) -> None:
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self.readings = readings
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def flag(self, alt=False):
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count = 0
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for reading in self.readings:
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reading.analyse()
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numbers = reading.read()
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if alt:
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count += int(''.join([str(n) for n in numbers]))
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else:
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for number in numbers:
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if number == 1 or number == 4 or number == 7 or number == 8:
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count += 1
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return count
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@staticmethod
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def parse(data: str):
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return Log([Reading.parse(line) for line in data.split('\n')])
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# 1
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print('1.')
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log = Log.parse(test)
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result = log.flag()
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print(f"Test: {result}")
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log = Log.parse(data)
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result = log.flag()
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print(f"Result: {result}")
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# 2
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print('\n2.')
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log = Log.parse(test)
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result = log.flag(True)
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print(f"Test: {result}")
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log = Log.parse(data)
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result = log.flag(True)
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print(f"Result: {result}")
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