This commit is contained in:
Michael Fogleman 2018-02-11 21:38:03 -05:00
parent d29d917d5e
commit 714894528c
1 changed files with 53 additions and 15 deletions

View File

@ -40,10 +40,9 @@ def compute_row(rule, previous):
row.append(y) row.append(y)
return ''.join(row) return ''.join(row)
def compute_rows(rule, n): def compute_rows(rule, w, h):
# rows = ['1'] rows = [random_row(w * 16)]
rows = [random_row(256)] for _ in range(h - 1):
for _ in range(n - 1):
rows.append(compute_row(rule, rows[-1])) rows.append(compute_row(rule, rows[-1]))
return rows return rows
@ -59,13 +58,12 @@ def pad(rows):
def trim(rows): def trim(rows):
return [row.strip('.') for row in rows] return [row.strip('.') for row in rows]
def crop(rows): def crop(rows, n):
w = len(rows[0]) w = len(rows[0])
h = len(rows) h = len(rows)
n = int(h * 0.8025)
i = w / 2 - n / 2 i = w / 2 - n / 2
j = i + n j = i + n
return [row[i:j] for row in rows]#[-int(n*1.375*3):]] return [row[i:j] for row in rows]
def crop_diagonal(rows): def crop_diagonal(rows):
rows = trim(rows) rows = trim(rows)
@ -107,13 +105,12 @@ def form_pairs(rows):
points.add((x2, y2)) points.add((x2, y2))
return pairs, points return pairs, points
def create_drawing(rule, h): def create_drawing(rule, w, h):
# print rule # print rule
rows = compute_rows(rule, h) rows = compute_rows(rule, w, h)
rows = pad(rows)
# rows = crop_diagonal(rows)
rows = crop(rows)
rows = pad(rows) rows = pad(rows)
rows = crop(rows, w)
# rows = pad(rows)
print len(rows[0]), len(rows) print len(rows[0]), len(rows)
pairs, points = form_pairs(rows) pairs, points = form_pairs(rows)
counts = defaultdict(int) counts = defaultdict(int)
@ -122,7 +119,7 @@ def create_drawing(rule, h):
counts[b] += 1 counts[b] += 1
# paths = [trim_pair(x, 0.25) for x in pairs] # paths = [trim_pair(x, 0.25) for x in pairs]
paths = pairs paths = pairs
circle = axi.Drawing([fill_circle(0, 0, 0, 0.25, 3.5, 100)]) circle = axi.Drawing([fill_circle(0, 0, 0, 0.2, 2.5, 100)])
# paths = [] # paths = []
# paths = random.sample(pairs, len(pairs) / 2) # paths = random.sample(pairs, len(pairs) / 2)
for x, y in points: for x, y in points:
@ -181,7 +178,7 @@ def decoder(rule):
d = d.scale(-1, 1) d = d.scale(-1, 1)
return d return d
def main(): def single():
rule = 150 rule = 150
seed = 37 seed = 37
random.seed(seed) random.seed(seed)
@ -197,7 +194,8 @@ def main():
d = create_drawing(rule, h) d = create_drawing(rule, h)
d = d.scale_to_fit_width(8.5) d = d.scale_to_fit_width(8.5)
d = vertical_stack([title(rule), d, decoder(rule)], 0.25) d = vertical_stack([title(rule), d, decoder(rule)], 0.25)
d = d.rotate_and_scale_to_fit(12, 8.5, step=90) d = d.rotate(-90)
d = d.scale_to_fit(12, 8.5)
print 'sorting paths' print 'sorting paths'
d = d.sort_paths() d = d.sort_paths()
print 'joining paths' print 'joining paths'
@ -210,5 +208,45 @@ def main():
im.write_to_png('out.png') im.write_to_png('out.png')
# axi.draw(d) # axi.draw(d)
def multiple():
w = 32
h = 137
# rules = [x for x in range(256) if bin(x).count('1') == 4]
# rules = [18, 22, 26, 30, 41, 45, 54, 60, 73, 90, 105, 106, 110, 122, 126, 146, 150, 154]
# rules = sorted(random.sample(rules, 6))
# print rules
# rules = sorted([22, 30, 60, 90, 106, 150, 105, 122, 154])
rules = sorted([22, 30, 60, 90, 106, 150])
ds = []
for rule in rules:
d1 = create_drawing(rule, w, h)
d1 = d1.scale_to_fit_height(8)
d2 = axi.Drawing(axi.text('Rule %d' % rule, axi.FUTURAL))
d2 = d2.scale_to_fit_height(0.125)
d = vertical_stack([d1, d2], 0.125)
ds.append(d)
title = axi.Drawing(axi.text('Elementary Cellular Automata', axi.FUTURAM))
title = title.scale_to_fit_height(0.25)
d = horizontal_stack(ds, 0.25)
d = vertical_stack([title, d], 0.2)
d = d.scale_to_fit(12, 8.5)
# print 'sorting paths'
# d = d.sort_paths()
# print 'joining paths'
# d = d.join_paths(0.01)
# print 'simplifying paths'
# d = d.simplify_paths(0.001)
print d.bounds
d.dump('out.axi')
im = d.render(scale=109 * 1, line_width=0.3/25.4, show_axi_bounds=False)
im.write_to_png('out.png')
# axi.draw(d)
def main():
# single()
multiple()
if __name__ == '__main__': if __name__ == '__main__':
main() main()