import sys
from typing import Tuple

E = { (y,x) for y,l in enumerate(sys.stdin.read().splitlines())
	for x,c in enumerate(l)
		if c == '#' }

def dim():
	minx = min(x for (_,x) in E)
	maxx = max(x for (_,x) in E)
	miny = min(y for (y,_) in E)
	maxy = max(y for (y,_) in E)
	return (maxx-minx+1,maxy-miny+1) # W,H

MARK = (-9999,-9999)
for r in range(int(sys.argv[1])):  # rounds
	P = dict()  # { new_pos: old_pos }
	for (y,x) in E:  # for each elve
		can1 = (y-1,x-1) not in E
		can2 = (y-1,x) not in E
		can3 = (y-1,x+1) not in E
		can4 = (y,x+1) not in E
		can5 = (y+1,x+1) not in E
		can6 = (y+1,x) not in E
		can7 = (y+1,x-1) not in E
		can8 = (y,x-1) not in E
		canN = can1 and can2 and can3
		canS = can5 and can6 and can7
		canW = can7 and can8 and can1
		canE = can3 and can4 and can5
		if all((canN, canS, canW, canE)):  # far away
			continue
		if not any((canN, canS, canW, canE)):  # all packed
			continue
		moves = (((y-1,x),canN), ((y+1,x),canS), ((y,x-1),canW), ((y,x+1),canE))
		moves = (moves[(r+0)%4], moves[(r+1)%4], moves[(r+2)%4], moves[(r+3)%4])
		p:Tuple[int,int] = next(filter(lambda m: m[1], moves))[0]
		#p:Tuple[int,int] = next(filter(lambda m: m[1], (moves[(r+i)%4] for i in (0,1,2,3)) ))[0] # using generator is slower than a tuple in codon ^^
		if p not in P: # can move
			P[p] = (y,x)
		else: # occupied, invalidate move for all
			P[p] = MARK
	moved = { v for k,v in P.items() if v != MARK }
	newpos = { k for k,v in P.items() if v != MARK }
	if r+1 == 10:
		(W,H) = dim()
		print(W, H, W * H - len(E))
	if len(newpos) == 0:
		(W,H) = dim()
		print(f"no move after {r+1}, {W}, {H}")
		break
	E = (E - moved) | newpos