70 lines
1.7 KiB
Python
70 lines
1.7 KiB
Python
from pprint import pprint
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import fileinput
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import itertools
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import numpy
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def distance(a, b):
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ax, ay = a
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bx, by = b
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return abs(ax - bx) + abs(ay - by)
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coordinates = []
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for line in fileinput.input():
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x, y = line.strip().split(", ")
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coordinates.append((int(x), int(y)))
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xs, ys = numpy.transpose(coordinates)
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def nearest_neighbor(x, y):
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closest = -1
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dist = 10000
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for i, coord in enumerate(coordinates):
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d = distance((x, y), coord)
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if d < dist:
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closest = i
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dist = d
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elif d == dist:
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closest = -1
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return closest
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def calc_farthest(padding):
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xmin, xmax = min(xs) - padding, max(xs) + padding
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ymin, ymax = min(ys) - padding, max(ys) + padding
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w, h = xmax - xmin, ymax - ymin
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grid = numpy.zeros((h + 1, w + 1), dtype=numpy.int16) - 1
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for y, row in enumerate(grid):
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for x in range(len(row)):
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nn = nearest_neighbor(x + xmin, y + ymin)
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if nn is not None:
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grid[y, x] = nn
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flat = grid.flatten()
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flat = flat[flat >= 0]
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return numpy.bincount(flat)
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def part1():
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small = calc_farthest(0)
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big = calc_farthest(10)
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print(small[small == big].max())
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def part2():
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padding = 5
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max_dist = 10000
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xmin, xmax = min(xs) - padding, max(xs) + padding
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ymin, ymax = min(ys) - padding, max(ys) + padding
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w, h = xmax - xmin, ymax - ymin
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grid = numpy.zeros((h + 1, w + 1), dtype=numpy.int16) - 1
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size = 0
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for y, row in enumerate(grid):
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for x in range(len(row)):
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s = sum(distance((x + xmin, y + ymin), c) for c in coordinates)
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if s < max_dist:
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size += 1
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print(size)
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