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Diffstat (limited to 'data_structures_and_algorithms/conways-game-of-life.py')
-rw-r--r-- | data_structures_and_algorithms/conways-game-of-life.py | 78 |
1 files changed, 78 insertions, 0 deletions
diff --git a/data_structures_and_algorithms/conways-game-of-life.py b/data_structures_and_algorithms/conways-game-of-life.py new file mode 100644 index 000000000000..3836bcd0c653 --- /dev/null +++ b/data_structures_and_algorithms/conways-game-of-life.py @@ -0,0 +1,78 @@ +from itertools import product +from random import choice +from time import sleep +from os import system +from math import floor +from colorama import Back, Fore, Style + +################################################################################ +# Simulation of Conway's Game of Life. The goal here was to write this with a +# small amount of code as a proof-of-concept that could be run in the terminal. +# +# If you'd like to tinker with the rules, see the conditionals defined in the +# `advance/1` function. For other parameters, like the board size and refresh +# rate, refer to the while-loop defined at the bottom of this file. +################################################################################ + + +def init_board(n, init_alive_percentage): + """Initialize a board of size `n` by `n`. Supply a percentage, + `init_alive_percentage`, representing the number of cells in the board that + should be alive from the start.""" + alive_count = floor(n * init_alive_percentage) + distribution = [True] * alive_count + [False] * (n - alive_count) + return [[choice(distribution) for _ in range(n)] for _ in range(n)] + + +def neighbors(coord, board): + """Return the neighbors for a given `coord` on a `board`.""" + n = len(board) + row, col = coord + return [ + board[(row + row_d) % n][(col + col_d) % n] + for row_d, col_d in product([-1, 0, 1], [-1, 0, 1]) + if (row_d, col_d) != (0, 0) + ] + + +def advance(board): + """Advance the state of the `board` from T[n] to T[n+1].""" + n = len(board) + new_board = [[False for _ in range(n)] for _ in range(n)] + for row in range(n): + for col in range(n): + alive_count = len([x for x in neighbors((row, col), board) if x]) + # Loneliness + if alive_count == 0: + new_board[row][col] = False + # Status Quo + elif alive_count == 1: + new_board[row][col] = board[row][col] + # Cooperation + elif alive_count == 2: + new_board[row][col] = True + # Resource starvation + elif alive_count >= 3: + new_board[row][col] = False + return new_board + + +def print_board(board): + """Print the game `board` in a human-readable way.""" + result = '' + for row in board: + for col in row: + if col: + result += Back.GREEN + '1 ' + Style.RESET_ALL + else: + result += Back.RED + '0 ' + Style.RESET_ALL + result += '\n' + print(result) + + +board = init_board(100, 0.50) +while True: + system('clear') + print_board(board) + sleep(0.15) + board = advance(board) |