AdventOfCode/2018/day17.py

103 lines
2.9 KiB
Python

with open('day17-input', 'r') as file:
data = [l.strip('\n') for l in file]
import numpy as np
import re
# numbers = [[int(s) for s in re.findall(r'-?\d+', d)] for d in data]
Xmin = [int(re.findall(r'x=(\d+)', d)[0]) for d in data]
Xmax = [int(re.findall(r'x=(?:\d+\.\.)?(\d+)', d)[0]) for d in data]
Ymin = [int(re.findall(r'y=(\d+)', d)[0]) for d in data]
Ymax = [int(re.findall(r'y=(?:\d+\.\.)?(\d+)', d)[0]) for d in data]
# arr = np.array(numbers, dtype=np.int64)
#
# # x, y_start, y_end
#
y_min = min(Ymin)
y_max = max(Ymax)
x_min = min(Xmin) - 1
x_max = 700 - x_min
init_grid = np.zeros((x_max, y_max+1), dtype=np.int64) # 0 = Sand, 1 = Clay, 2 = water, -1 = running water
spring = [500-x_min, 0]
for xmin, xmax, ymin, ymax in zip(Xmin, Xmax, Ymin, Ymax):
init_grid[xmin-x_min:xmax+1-x_min, ymin:ymax+1] = 1
grid = init_grid.copy()
def drop_water(source=spring, skip_cliffs=set()):
# TODO: The exit condition on this is borked and it will probably run forever. Killing it after like a minute and then running the things at the end gives the right answers.
# I'll probably revisit this properly later
x, y = source
# print('Dropping water from', source)
surface = (grid[x, y:] > 0).argmax()
if surface == 0:
if (grid[x, y-1:] > 0).argmax() == 0:
grid[x, y:] = -1
return False
# raise ValueError('Out of bounds')
surface_y = surface + y
grid[x, y:surface_y] = -1
# Find walls left and right
wall_left = (grid[x:0:-1, surface_y-1] > 0).argmax()
wall_right = (grid[x:, surface_y-1] > 0).argmax()
if wall_left:
left_x = x - wall_left + 1
cliff = (grid[x:left_x-1:-1, surface_y] <= 0).argmax()
if cliff:
wall_left = False
if wall_right:
right_x = x + wall_right #- 1
cliff = (grid[x:right_x, surface_y] <= 0).argmax()
if cliff:
wall_right = False
if wall_right and wall_left:
# Fill level of basin
grid[left_x:right_x, surface_y-1] = 2
return True
cliffs = set()
if not wall_left:
cliff = int((grid[x:0:-1, surface_y] <= 0).argmax())
grid[x-cliff:x, surface_y-1] = -1
if wall_right:
grid[x:right_x, surface_y - 1] = -1
if cliff and (cliff not in skip_cliffs):
cliffs.add((x - cliff, surface_y))
if not wall_right:
cliff = int((grid[x:, surface_y] <= 0).argmax())
grid[x:x+cliff+1, surface_y-1] = -1
if wall_left:
grid[left_x:x, surface_y-1] = -1
if cliff and (cliff not in skip_cliffs):
cliffs.add((x + cliff, surface_y))
succeeded = False
while sum([drop_water(c) for c in cliffs]):
succeeded = True
return succeeded
def visualize():
vis_rows = []
for row in range(y_max+1):
vis_rows.append(''.join([('.', '#', '~', '|')[grid[col, row]] for col in range(x_max)]))
with open('day17-vis', 'w') as file:
file.write('\n'.join(vis_rows))
import sys
sys.setrecursionlimit(10000)
while drop_water():
pass
print((grid==2).sum() + (grid==-1).sum() - y_min) # Part 1
print((grid==2).sum()) # Part 2
visualize()