Factorise some code into snippets.py
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@ -3,6 +3,7 @@
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Jour 08 du défi Advent Of Code pour l'année 2023
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"""
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import os
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import math
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def read_sample():
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"""récupère les entrées depuis le fichier texte correspondant"""
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@ -12,19 +13,6 @@ def read_sample():
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sample = [ i for i in sample if i != '' ]
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return sample
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def gcd(a, b):
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while b:
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a, b = b, a % b
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return a
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def lcm(a, b):
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return (a * b) // gcd(a, b)
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def lcm_of_list(numbers):
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result = 1
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for num in numbers:
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result = lcm(result, num)
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return result
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def parse_sample(sample):
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instructions = sample[0]
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@ -34,6 +22,7 @@ def parse_sample(sample):
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}
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return instructions, mappings
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def number_steps(instructions, mappings, pos, untilZZZ=True):
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step = 0
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instr = {
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@ -44,6 +33,8 @@ def number_steps(instructions, mappings, pos, untilZZZ=True):
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step += 1
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return step
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def part1(sample):
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"""Partie 1 du défi"""
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instructions, mappings = parse_sample(sample)
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@ -54,7 +45,7 @@ def part2(sample):
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instructions, mappings = parse_sample(sample)
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a_ending = [i for i in mappings.keys() if i[-1] == 'A']
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steps = [number_steps(instructions, mappings, i, untilZZZ=False) for i in a_ending]
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return lcm_of_list(steps)
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return math.lcm(*steps)
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def main():
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@ -3,8 +3,9 @@
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Jour 12 du défi Advent Of Code pour l'année 2023
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"""
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import os
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from functools import cache, wraps
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from time import time
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from functools import cache
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from aoc_utils import decorators
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def read_sample():
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"""récupère les entrées depuis le fichier texte correspondant"""
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@ -24,18 +25,6 @@ def parse_sample(sample):
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return springs, counts
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def timing(f):
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@wraps(f)
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def wrap(*args, **kw):
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ts = time()
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result = f(*args, **kw)
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te = time()
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print('> %s: %2.4f sec' % \
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(f.__name__, te-ts))
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return result
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return wrap
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def nb_poss(spring, count):
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def check_new_elem(elem, size, count):
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if size > len(count):
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@ -114,7 +103,7 @@ def unfold(springs, counts):
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counts[i] = counts[i]*5
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@timing
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@decorators.timeit
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def part1(sample):
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"""Partie 1 du défi"""
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springs, counts = parse_sample(sample)
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@ -125,7 +114,7 @@ def part1(sample):
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return sum(possibilities)
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@timing
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@decorators.timeit
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def part2(sample):
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"""Partie 2 du défi"""
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springs, counts = parse_sample(sample)
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@ -4,6 +4,8 @@ Jour 18 du défi Advent Of Code pour l'année 2023
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"""
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import os
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from aoc_utils import snippets
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directions = {
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"R": (0, 1),
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"L": (0, -1),
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@ -107,29 +109,6 @@ def print_terrain(terrain):
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print()
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def border(data):
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return(sum((i[1] for i in data)))
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# https://www.tutorialspoint.com/program-to-find-area-of-a-polygon-in-python
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def getInfo(x1, y1, x2, y2):
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return x1*y2 - y1*x2
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def solve(data):
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points = [t[0] for t in data]
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N = len(points)
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firstx, firsty = points[0]
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prevx, prevy = firstx, firsty
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res = 0
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for i in range(1, N):
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nextx, nexty = points[i]
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res = res + getInfo(prevx,prevy,nextx,nexty)
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prevx = nextx
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prevy = nexty
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res = res + getInfo(prevx,prevy,firstx,firsty)
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return abs(res)/2.0
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def part1(sample):
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"""Partie 1 du défi"""
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data = parse_sample(sample, new_method=False)
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@ -140,7 +119,8 @@ def part2(sample):
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"""Partie 2 du défi"""
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data = parse_sample(sample, new_method=True)
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terrain = dig(data, only_edges=True)
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return int(solve(terrain)+border(data)//2 +1)
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points = [i[0] for i in terrain]
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return snippets.area(points)
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def main():
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@ -3,7 +3,8 @@
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Jour 21 du défi Advent Of Code pour l'année 2023
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"""
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import os
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from aoc_utils.decorators import timeit
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from aoc_utils import decorators, snippets
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def read_sample():
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"""récupère les entrées depuis le fichier texte correspondant"""
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@ -62,24 +63,12 @@ def do_steps(sample, steps=26501365, ext=False):
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return pos_ts
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def lagrange_interpolation(points, x0):
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result = 0
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for i in range(len(points)):
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temp = points[i][1]
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for j in range(len(points)):
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if j != i:
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temp *= (x0 - points[j][0]) / (points[i][0] - points[j][0])
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result += temp
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return int(result)
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@timeit
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@decorators.timeit
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def part1(sample):
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"""Partie 1 du défi"""
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return len(do_steps(sample, steps=64, ext=False))
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@timeit
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@decorators.timeit
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def part2(sample):
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"""Partie 2 du défi"""
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def challenge(steps):
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@ -93,7 +82,7 @@ def part2(sample):
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(half_size+size, challenge(half_size+size)),
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(half_size+2*size, challenge(half_size+2*size))
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]
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return lagrange_interpolation(points, 26501365)
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return snippets.lagrange_interpolation(points, 26501365)
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48
aoc_utils/snippets.py
Normal file
48
aoc_utils/snippets.py
Normal file
@ -0,0 +1,48 @@
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from typing import TypeVar
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Nb = TypeVar("Nb", int, float)
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def lagrange_interpolation(points: list[tuple[Nb, Nb]], x0: Nb) -> int:
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result = 0
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for i in range(len(points)):
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temp = points[i][1]
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for j in range(len(points)):
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if j != i:
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temp *= (x0 - points[j][0]) / (points[i][0] - points[j][0])
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result += temp
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return int(result)
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def area(points: list[tuple[Nb, Nb]], count_border: bool=True) -> int:
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def distance(p1: tuple[Nb, Nb], p2: tuple[Nb, Nb]) -> float:
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return abs(p1[0]-p2[0]) + abs(p1[1]-p2[1])
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def get_info(x1: Nb, y1: Nb, x2: Nb, y2: Nb) -> Nb:
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return x1*y2 - y1*x2
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def inner_area() -> float:
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first_x, first_y = points[0]
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prev_x, prev_y = first_x, first_y
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res = 0
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for i in range(len(points)-1):
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next_x, next_y = points[i+1]
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res = res + get_info(prev_x, prev_y, next_x, next_y)
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prev_x = next_x
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prev_y = next_y
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res = res + get_info(prev_x, prev_y, first_x, first_y)
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return abs(res)/2.0
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def border() -> float:
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distances = [distance(points[i], points[i+1]) for i in range(len(points)-1)]
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distances.append(distance(points[-1], points[0]))
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return sum(distances)
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if count_border:
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return int(inner_area()+border()//2 +1)
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return int(inner_area())
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