def test_scillator(self):
"""blinker"""
A = np.zeros((10, 10))
A[1:4, 1] = 1
B = conway(A)
assert (B[2, 0:3] == 1).all()
B = conway(B)
assert (A == B).all()
def test_scillator(self):
"""blinker"""
A = np.zeros((10,10))
A[1:4,1] = 1
B = conway(A)
assert (B[2, 0:3] == 1).all()
B = conway(B)
assert (A == B).all()
def test_still(self):
"""2x2 block"""
A = np.zeros((10, 10))
A[1:3, 1:3] = 1
B = conway(A)
assert (A == B).all()
def endpoint():
width = int(request.values.get('M'))
height = int(request.values.get('N'))
liveCells = []
i = 0
liveCells = parseQuery(str(request.query_string))
return jsonpify(output=conway(width, height, liveCells))
def simulate():
H = 40
V = 30
C = conway(H,V,'zeros')
C.setPos(10,10,1)
C.setPos(9,10,1)
C.setPos(12,10,1)
C.setPos(10,9,1)
C.setPos(11,9,1)
C.setPos(10,11,1)
C.setPos(11,11,1)
C.setPos(10,20,1)
C.setPos(11,21,1)
C.setPos(12,19,1)
C.setPos(12,20,1)
C.setPos(12,21,1)
n = 0
while True:
C.evolve(rule)
os.system('clear')
C.printDisp()
print("STEP:", n)
sleep(0)
n += 1
return True
def test_still(self):
"""2x2 block"""
A = np.zeros((10,10))
A[1:3,1:3] = 1
B = conway(A)
assert (A == B).all()
import pygame
import conway
realwidth = 600
realheight = 600
width = 50
height = 50
screen = pygame.display.set_mode((realwidth, realheight))
running = True
scaleFactor = float(realwidth / width)
conway = conway.conway(width, height)
conway.displayGrid(screen, scaleFactor)
pix2set = [[False for i in range(height)] for j in range(width)]
clock = pygame.time.Clock()
while (pygame.mouse.get_pressed()[1] != True):
if (pygame.mouse.get_pressed()[0] == True):
mousepos = pygame.mouse.get_pos()
val1 = int(mousepos[0] / scaleFactor)
val2 = int(mousepos[1] / scaleFactor)
conway.toggleSquare(val1, val2, scaleFactor, screen, True)
pygame.display.flip()
elif (pygame.mouse.get_pressed()[2] == True):
mousepos = pygame.mouse.get_pos()
val1 = int(mousepos[0] / scaleFactor)
val2 = int(mousepos[1] / scaleFactor)
conway.toggleSquare(val1, val2, scaleFactor, screen, False)
conway.displayGrid(screen, scaleFactor)
pygame.display.flip()
pygame.event.get()
import conway, time
size = 20
conway = conway.conway(size)
def printGrid(grid):
for i in range(size):
print str(grid[i]).replace('[','').replace(']','').replace(',',' ').replace('0', ' ')
while(True):
time.sleep(0.5)
printGrid(conway.takeAStep())
print("\n")
#import matplotlib.pyplot as plt
import numpy as np
from conway import conway
if __name__ == "__main__":
# set up board
m,n = 100,100
A = np.array([ [ 1 if x=="#" else 0 for x in l.strip()] for l in open('day18.input').readlines() ]).reshape(m, n)
#A = np.array([[0,1,0,1,0,1],[0,0,0,1,1,0],[1,0,0,0,0,1],[0,0,1,0,0,0],[1,0,1,0,0,1],[1,1,1,1,0,0]])
print A
for i in range(100):
A = conway(A)
A[0,0] = 1
A[m-1,0] = 1
A[0,n-1] = 1
A[m-1,n-1] = 1
print np.sum(A)
import conway, time
size = 20
conway = conway.conway(size)
def printGrid(grid):
for i in range(size):
print str(grid[i]).replace('[', '').replace(']', '').replace(
',', ' ').replace('0', ' ')
while (True):
time.sleep(0.5)
printGrid(conway.takeAStep())
print("\n")
def test_evolution(self):
"""test that something changes"""
m, n = 10, 10
A = np.random.random(m * n).reshape((m, n)).round()
B = conway(A)
assert (B != A).any()
def test_evolution(self):
"""test that something changes"""
m, n = 10, 10
A = np.random.random(m*n).reshape((m, n)).round()
B = conway(A)
assert (B != A).any()
