Програмиране с Python

Код

#!/usr/bin/env python3

import os

import time

from random import Random

BOARD_SIZE = 48

def print_board(board, wait=False, sleep=False):

    os.system(['clear', 'cls'][os.name == 'nt'])

    print('=' * (BOARD_SIZE + 2), end='|\n')

    for row in board:

        print(*['X' if x else ' ' for x in row], end=' |\n', sep='')

    print([[x & 1 for x in row] for row in board])

    input("Press enter to continue.")

def create_board(fill_rate=0.3):

    rand = Random()

    return [[int(x and x != BOARD_SIZE + 1 and y and y != BOARD_SIZE + 1

             and rand.normalvariate(0.5, 0.2) < fill_rate)

                 for x in range(0, BOARD_SIZE + 2)]

                     for y in range(0, BOARD_SIZE + 2)]

def live_cell_condition(board, x, y):

    counter = 0

    if board[x - 1][y - 1] == 1:

        counter += 1

    if board[x - 1][y] == 1:

        counter += 1

    if board[x - 1][y + 1] == 1:

        counter += 1

    if board[x][y - 1] == 1:

        counter += 1

    if board[x][y + 1] == 1:

        counter += 1

    if board[x + 1][y - 1] == 1:

        counter += 1

    if board[x + 1][y] == 1:

        counter += 1

    if board[x + 1][y + 1] == 1:

        counter += 1

    if counter == 2 or counter == 3:

        return 1

    else:

        return 0

def dead_cell_condition(board, x, y):

    counter = 0

    if board[x - 1][y - 1] == 1:

        counter += 1

    if board[x - 1][y] == 1:

        counter += 1

    if board[x - 1][y + 1] == 1:

        counter += 1

    if board[x][y - 1] == 1:

        counter += 1

    if board[x][y + 1] == 1:

        counter += 1

    if board[x + 1][y - 1] == 1:

        counter += 1

    if board[x + 1][y] == 1:

        counter += 1

    if board[x + 1][y + 1] == 1:

        counter += 1

    if counter == 3:

        return 1

    else:

        return 0

def step_board(board):

    my_board = [[0 for x in range(0, BOARD_SIZE + 2)]

                   for y in range(0, BOARD_SIZE + 2)]

    for x in range(1, BOARD_SIZE + 1):

        for y in range(1, BOARD_SIZE + 1):

            if board[x][y] == 1:

                my_board[x][y] = live_cell_condition(board, x, y)

            else:

                my_board[x][y] = dead_cell_condition(board, x, y)

    for x in range(1, BOARD_SIZE + 1):

        for y in range(1, BOARD_SIZE + 1):

            board[x][y] = my_board[x][y]

if __name__ == '__main__':

    board = create_board()

    while True:

        step_board(board)

        print_board(board)

История (1 версия и 0 коментара)

Борис обнови решението на 31.03.2012 19:20 (преди над 12 години)

+#!/usr/bin/env python3

+import os

+import time

+from random import Random

+BOARD_SIZE = 48

+def print_board(board, wait=False, sleep=False):

+    os.system(['clear', 'cls'][os.name == 'nt'])

+    print('=' * (BOARD_SIZE + 2), end='|\n')

+    for row in board:

+        print(*['X' if x else ' ' for x in row], end=' |\n', sep='')

+    print([[x & 1 for x in row] for row in board])

+    input("Press enter to continue.")

+def create_board(fill_rate=0.3):

+    rand = Random()

+    return [[int(x and x != BOARD_SIZE + 1 and y and y != BOARD_SIZE + 1

+             and rand.normalvariate(0.5, 0.2) < fill_rate)

+                 for x in range(0, BOARD_SIZE + 2)]

+                     for y in range(0, BOARD_SIZE + 2)]

+def live_cell_condition(board, x, y):

+    counter = 0

+    if board[x - 1][y - 1] == 1:

+        counter += 1

+    if board[x - 1][y] == 1:

+        counter += 1

+    if board[x - 1][y + 1] == 1:

+        counter += 1

+    if board[x][y - 1] == 1:

+        counter += 1

+    if board[x][y + 1] == 1:

+        counter += 1

+    if board[x + 1][y - 1] == 1:

+        counter += 1

+    if board[x + 1][y] == 1:

+        counter += 1

+    if board[x + 1][y + 1] == 1:

+        counter += 1

+    if counter == 2 or counter == 3:

+        return 1

+    else:

+        return 0

+def dead_cell_condition(board, x, y):

+    counter = 0

+    if board[x - 1][y - 1] == 1:

+        counter += 1

+    if board[x - 1][y] == 1:

+        counter += 1

+    if board[x - 1][y + 1] == 1:

+        counter += 1

+    if board[x][y - 1] == 1:

+        counter += 1

+    if board[x][y + 1] == 1:

+        counter += 1

+    if board[x + 1][y - 1] == 1:

+        counter += 1

+    if board[x + 1][y] == 1:

+        counter += 1

+    if board[x + 1][y + 1] == 1:

+        counter += 1

+    if counter == 3:

+        return 1

+    else:

+        return 0

+def step_board(board):

+    my_board = [[0 for x in range(0, BOARD_SIZE + 2)]

+                   for y in range(0, BOARD_SIZE + 2)]

+    for x in range(1, BOARD_SIZE + 1):

+        for y in range(1, BOARD_SIZE + 1):

+            if board[x][y] == 1:

+                my_board[x][y] = live_cell_condition(board, x, y)

+            else:

+                my_board[x][y] = dead_cell_condition(board, x, y)

+    for x in range(1, BOARD_SIZE + 1):

+        for y in range(1, BOARD_SIZE + 1):

+            board[x][y] = my_board[x][y]

+if __name__ == '__main__':

+    board = create_board()

+    while True:

+        step_board(board)

+        print_board(board)

Програмиране с Python

Курс във Факултета по Математика и Информатика към СУ

Решение на Игра на живот от Борис Величков

Резултати

Код

Лог от изпълнението

История (1 версия и 0 коментара)

Борис обнови решението на 31.03.2012 19:20 (преди над 12 години)