2022-12-18 05:28:24 +00:00
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import matrix
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import shared
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2022-12-18 06:36:15 +00:00
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from pprint import pprint
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2022-12-18 05:28:24 +00:00
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from dataclasses import dataclass
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from typing import Set, Tuple
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from functools import cached_property
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2022-12-18 16:02:25 +00:00
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from mpl_toolkits.mplot3d import Axes3D
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import numpy as np
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import matplotlib.pyplot as plt
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2022-12-18 05:28:24 +00:00
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@dataclass
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class Cube:
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x: int
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y: int
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z: int
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neighbor_coords: Set[Tuple[int,int,int]] = None
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2022-12-18 05:28:24 +00:00
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@cached_property
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def xyz(self):
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return (self.x,self.y,self.z)
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2022-12-18 05:57:30 +00:00
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def set_neighbor_coords(self):
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self.neighbor_coords = get_neighbors(self.x,self.y,self.z)
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def get_neighbors(x,y,z):
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# Generate the six neighbor_coords
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# Look at a die 6 to the left, 2 on top, one on right
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offsets = (
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(1,0,0), # 1
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(0,0,1), # 2
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(0,-1,0),# 3
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(0,1,0), # 4
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(0,0,-1),# 5
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(-1,0,0) # 6
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)
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2022-12-18 16:02:25 +00:00
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return set([(x+o[0], y+o[1], z+o[2]) for o in offsets])
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2022-12-18 16:02:25 +00:00
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def get_flat_neighbors(x,y,z):
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# Generate the six neighbor_coords
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# Look at a die 6 to the left, 2 on top, one on right
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# ignore top and bottom
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offsets = (
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(1,0,0), # 1
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#(0,0,1), # 2
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(0,-1,0),# 3
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(0,1,0), # 4
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#(0,0,-1),# 5
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(-1,0,0) # 6
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)
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return set([(x+o[0], y+o[1], z+o[2]) for o in offsets])
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2022-12-18 16:02:25 +00:00
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def get_flat_neighbors_from(x,y,z, f):
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return get_flat_neighbors(x,y,z).intersection(f)
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2022-12-18 05:28:24 +00:00
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# @shared.profile
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def part1(rows):
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cubes = {}
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for idx, (x,y,z) in enumerate(rows):
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cubes[(x,y,z)] = {'n':get_neighbors(x,y,z), 'not_me': tuple(map(tuple,rows[:idx] + rows[idx+1:]))}
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potential = len(cubes) * 6
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for coords, cube in cubes.items():
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for other in cube['not_me']:
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if other in cube['n']:
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potential -= 1
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print(potential)
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def surface_area(rows):
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cubes = {}
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maxX,maxY,maxZ = 0,0,0
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for idx, (x,y,z) in enumerate(rows):
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cubes[(x,y,z)] = {'n':get_neighbors(x,y,z), 'not_me': set(map(tuple,rows[:idx] + rows[idx+1:]))}
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maxX = max(maxX,x)
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maxY = max(maxY,y)
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maxZ = max(maxZ,z)
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_cubes = frozenset(cubes.keys())
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potential = len(cubes) * 6
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for coords, cube in cubes.items():
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for other in cube['not_me']:
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if other in cube['n']:
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potential -= 1
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return potential, maxX,maxY,maxZ, cubes, _cubes
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def part2(rows):
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potential, maxX, maxY,maxZ,cubes,_cubes = surface_area(rows)
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air = set()
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for x in range(0,maxX+1):
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for y in range(0,maxY+1):
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for z in range(0,maxZ+1):
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if (x,y,z) not in _cubes:
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air.add((x,y,z))
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air -= _cubes # Remove all lava from air
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all_air_count = len(air)
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all_lava_count = len(_cubes)
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possible_count = (maxX+1)*(maxY+1)*(maxZ+1)
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print("all_air: ", all_air_count)
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print("all_lava:", all_lava_count)
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print("possible:", possible_count)
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print(maxZ,maxY,maxX)
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print()
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air_nx = {}
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for a in air:
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neighbors = get_neighbors(*a)
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air_nx[a] = {
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'lava':neighbors & _cubes or None,
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'air': neighbors & air or None
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}
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# loop row by row
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inside = []
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for z in range(0,maxZ+1):
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seen = set()
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seen.add((0,0,z))
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for y in range(0,maxY+1):
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for x in range(0,maxX+1):
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xyz = (x,y,z)
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if xyz in _cubes:
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#print(xyz,'is cube')
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continue
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ns = get_flat_neighbors_from(x,y,z, air)
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for neigh in ns:
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if neigh in seen and neigh not in _cubes:
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seen.add(xyz)
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this_level = air_in_row(air, z)
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print(this_level, seen)
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print(len(this_level), len(seen))
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inside.extend([x for x in this_level if x not in seen])
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#print()
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#print(inside)
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#print()
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actually_inside = []
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for i in inside:
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ns = get_neighbors(*i)
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# check for surrounded 100% by rock
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rock_count = 0
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for n in ns:
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if n in _cubes:
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rock_count +=1
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if rock_count == 6:
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print("in rock")
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actually_inside.append(i)
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continue
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#check for surrounded 100% by air
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air_count = 0
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for n in ns:
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if n in air:
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air_count +=1
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print("in air")
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break
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actually_inside.append(i)
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#print(actually_inside)
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tot, _, _, _, _, _ = surface_area(actually_inside)
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print(tot)
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print(potential - tot)
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shared.render_cubes(maxX,maxY,maxZ, [x for x in actually_inside])
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def air_in_row(air, z):
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x = []
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for a in air:
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if a[2] == z:
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x.append(a)
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return x
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def main():
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rows = [list(map(int,row.split(","))) for row in shared.load_rows(18)]
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with shared.elapsed_timer() as elapsed:
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part1(rows)
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print("🕒", elapsed())
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#rows = [map(int,row.split(",")) for row in shared.load_rows(18)]
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with shared.elapsed_timer() as elapsed:
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part2(rows)
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print("🕒", elapsed())
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if __name__ == "__main__":
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main()
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