diff options
Diffstat (limited to 'data/graphics')
-rw-r--r-- | data/graphics/life | 102 |
1 files changed, 102 insertions, 0 deletions
diff --git a/data/graphics/life b/data/graphics/life new file mode 100644 index 0000000..7ddb4c2 --- /dev/null +++ b/data/graphics/life @@ -0,0 +1,102 @@ +# -*- coding: utf-8 -*- +# This is the game life http://en.wikipedia.org/wiki/Conway%27s_Game_of_Life + +import os, time, random + +# +# we need a function to load cells in the neighborhood +# + +def LoadCells(rows, cols): + grid = [] + col = [0] * cols + # first we load an empty grid + for i in range(rows): + col = [0] * cols + grid.append(col) + # then we load some cells + for x in range(rows): + for y in range(cols): + cell = random.randint(0, random.randint(0, 1)) + grid[x][y] = cell + return grid + +# +# here we draw the grid +# + +def DrawGrid(grid): + rows = len(grid) + cols = len(grid[1]) + for x in range(rows): + for y in range(cols): + if grid[x][y] != 1: + print ".", + else: + print "o", + print "\n", + +# +# count neighbors arround a single cell +# + +def CountNeighbors(grid, x, y): + neighbors = 0 + rows = len(grid) + cols = len(grid[1]) + + if x < rows-1 and grid[x+1][y] == 1: + neighbors += 1 + if x > 0 and grid[x-1][y] == 1: + neighbors += 1 + if y < cols-1 and grid[x][y+1] == 1: + neighbors += 1 + if y > 0 and grid[x][y-1] == 1: + neighbors += 1 + if x < rows-1 and y < cols-1 and grid[x+1][y+1] == 1: + neighbors += 1 + if x > 0 and y > 0 and grid[x-1][y-1] == 1: + neighbors += 1 + if x > 0 and y < cols-1 and grid[x-1][y+1] == 1: + neighbors += 1 + if x < rows-1 and y > 0 and grid[x+1][y-1] == 1: + neighbors += 1 + + return neighbors + +# here we define a single iteration +# if we have between 3 and 6 neighbors the single cell lives +# in other case the cell dies + +def Iteration(grid): + rows = len(grid) + cols = len(grid[1]) + neighbors = 0 + for x in range(rows): + for y in range(cols): + neighbors = CountNeighbors(grid, x, y) + if grid[x][y] == 1: + if neighbors < 2 or neighbors > 3: + grid[x][y] = 0 + else: + if neighbors == 3: + grid[x][y] = 1 + +# +# iterate n pulses and draws the result of each one +# + +def Iterator(rows, cols, pulses): + pulse = 1 + grid = LoadCells(rows, cols) + while pulse <= pulses: + os.system('clear') + print "Pulse: ", pulse + Iteration(grid) + DrawGrid(grid) + pulse += 1 + time.sleep(0.2) + +number = input("Please input the number of rows and cols (unique number):") +pulses = input("Please input the number of pulses:") +Iterator(number, number, pulses) |