66 lines
1.8 KiB
Python
66 lines
1.8 KiB
Python
import sys
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E = { (y,x) for y,l in enumerate(sys.stdin.read().splitlines())
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for x,c in enumerate(l)
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if c == '#' }
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def can(y,x):
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can1 = (y-1,x-1) not in E
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can2 = (y-1,x) not in E
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can3 = (y-1,x+1) not in E
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can4 = (y,x+1) not in E
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can5 = (y+1,x+1) not in E
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can6 = (y+1,x) not in E
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can7 = (y+1,x-1) not in E
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can8 = (y,x-1) not in E
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return [can1,can2,can3,can4,can5,can6,can7,can8]
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def canN(y,x,can1,can2,can3,can4,can5,can6,can7,can8):
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if can1 and can2 and can3:
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return (y-1,x)
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def canS(y,x,can1,can2,can3,can4,can5,can6,can7,can8):
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if can5 and can6 and can7:
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return (y+1,x)
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def canW(y,x,can1,can2,can3,can4,can5,can6,can7,can8):
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if can7 and can8 and can1:
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return (y,x-1)
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def canE(y,x,can1,can2,can3,can4,can5,can6,can7,can8):
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if can3 and can4 and can5:
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return (y,x+1)
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def dim():
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minx = min(x for (_,x) in E)
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maxx = max(x for (_,x) in E)
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miny = min(y for (y,_) in E)
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maxy = max(y for (y,_) in E)
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return (maxx-minx+1,maxy-miny+1) # W,H
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from collections import deque
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dirs = deque([canN,canS,canW,canE])
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for r in range(int(sys.argv[1])): # rounds
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P = dict() # { new_pos: old_pos }
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for e in E: # for each elve
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(y,x) = e
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cans = can(y,x) # compute once instead of four
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moves = [ d(y,x,*cans) for d in dirs ]
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if all(m is not None for m in moves): # far away
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continue
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if all(m is None for m in moves): # all packed
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continue
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p = next(filter(lambda m: m is not None ,moves))
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if p not in P: # can move
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P[p] = (y,x)
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else: # occupied, invalidate move for all
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P[p] = None
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moved = { v for k,v in P.items() if v is not None }
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newpos = { k for k,v in P.items() if v is not None }
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if r+1 == 10:
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(W,H) = dim()
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print(W, H, W * H - len(E))
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if len(newpos) == 0:
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(W,H) = dim()
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print(f"no move after {r+1}, {W}, {H}")
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break
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E = (E - moved) | newpos
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dirs.rotate(-1)
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