def main(): numbers = read_numbers() three = numbers[3][0] # for i in three: # print(i) cnt = 0 for i, elem in enumerate(three): for j, e in enumerate(elem): three[i][j] = cnt cnt += 1 place = [[1, 0, 0, 0, 0], [0, 0, 0, 0, 0], [0, 0, 0, 0, 0], [0, 0, 0, 0, 0], [0, 0, 0, 0, 0]] # q = hello(three, place) # print("size: ", len(q), len(q[0])) for i, elem in enumerate(place): for j, e in enumerate(elem): place[i][j] = 1 q = hello(three, place) print("size: ", len(q), len(q[0])) out_matrix(place) out_matrix(q) print() print() place[i][j] = 0
def main(): numbers = read_numbers() three = numbers[3][0] place = [[0, 0, 0, 0, 0], [0, 0, 0, 0, 0], [0, 0, 0, 0, 0], [0, 0, 1, 0, 0], [0, 0, 0, 0, 0]] for i in three: print(i) print() BUBBLE_SIZE = 7 q = hello(three, place) print("SIZE: ", len(q), len(q[0])) for i in q: print(i) bubbled_place = make_bubble(place, BUBBLE_SIZE) out_matrix(bubbled_place) out_matrix(zip_bubbled_data(bubbled_place, BUBBLE_SIZE)) # важно чтобы id клеток разных регионов не пересекались!!! r = Region(len(merge_input([make_bubble(place, BUBBLE_SIZE), hello(three, place)])), 5, 0) for step in range(200): s = 0 x = -1 y = -1 for i, I in enumerate(place): for j, J in enumerate(I): if place[i][j] == 1: x, y = i, j break print("-----" * 10) for i in place: print(i) print("-----" * 10) for i, I in enumerate(place): for j, J in enumerate(I): place[i][j] = 0 if (x == -1 and y == -1) or step < 10: while 1: x = randrange(len(place)) y = randrange(len(place)) place[x][y] = 1 if get_sum(hello(three, place)): break place[x][y] = 0 else: place[x][y] = 1 r.step_forward(merge_input([make_bubble(place, BUBBLE_SIZE), hello(three, place)])) r.out_prediction() new_place = zip_bubbled_data(do_cut(r.get_binary_prediction(), len(make_bubble(place, BUBBLE_SIZE))), BUBBLE_SIZE) place = new_place